SPME Applications Guide - Labicom
SPME Applications Guide - Labicom
SPME Applications Guide - Labicom
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SUPELCO<br />
Bulletin 925E<br />
<strong>SPME</strong> <strong>Applications</strong> <strong>Guide</strong><br />
The <strong>SPME</strong> <strong>Applications</strong> <strong>Guide</strong> is a bibliographic resource of published technical articles about solid phase microextraction. With the<br />
continued growth of <strong>SPME</strong>, and its expansion into environmental, food, forensic, and other fields, we recognize the need for an organized<br />
bibliography. This guide should serve a useful purpose in your <strong>SPME</strong> research and analyses.<br />
This guide is for general information only. We have made every attempt to make the information as complete and accurate as possible.<br />
Where entries are missing, information was not available at the time of printing.<br />
NOTE: Because of copyright restrictions, Supelco cannot provide copies of the articles listed. If you desire copies, please refer to the<br />
publications cited.<br />
Using This <strong>Guide</strong><br />
This guide is organized in an easy-to-use format. The references are<br />
grouped into application areas (see the Table of Contents) with the<br />
over 600 new references placed at the end of each area in bold. The<br />
Analyte/Matrix column identifies the class of analytes and the<br />
sample matrix. The Literature Reference column provides the title of<br />
the article, journal reference, and authors. The next column describes<br />
the <strong>SPME</strong> fiber and conditions used in the sample extraction.<br />
The last column indicates the instrument used in the analysis.<br />
Key to Abbreviations<br />
Abbrev. Description<br />
AED atomic emission detection<br />
DVB divinylbenzene<br />
ECD electron capture detection<br />
FID flame ionization detection<br />
FPD flame photometric detection<br />
FTD flame thermonic detection<br />
GC gas chromatography<br />
HPLC high pressure liquid chromatography<br />
ICP inductive coupled plasma<br />
MS mass spectrometry<br />
MSD mass selective detection<br />
NPD nitrogen/phosphorus detection<br />
PAD photodiode-array detection<br />
PDMS polydimethylsiloxane<br />
PICI positive ion chemical ionization<br />
SIM selective ion monitoring<br />
TCD thermionic-selective detection<br />
TED thermal energy detection<br />
VIS visible spectrophotometry<br />
sigma-aldrich.com/supelco<br />
Table of Contents<br />
595 North Harrison Road<br />
Bellefonte, PA 16823-0048 USA<br />
Telephone 800-247-6628 ● 814-359-3441<br />
Fax 800-447-3044 ● 814-359-3044<br />
email: supelco@sial.com<br />
sigma-aldrich.com/supelco<br />
Bulletin 925E<br />
Application Area<br />
Books .................................................................... 2<br />
Foods .................................................................... 2<br />
Polymers and Coatings .......................................... 48<br />
Natural Products .................................................... 51<br />
Pharmaceuticals .................................................... 65<br />
Biological Matrices ................................................. 67<br />
Toxicology ............................................................. 78<br />
Forensics ............................................................... 94<br />
Environmental ....................................................... 99<br />
Water .......................................................... 102<br />
Pesticides ..................................................... 138<br />
Soil .............................................................. 149<br />
Air ............................................................... 157<br />
Theory and Technique ......................................... 163<br />
Supelco <strong>SPME</strong> Literature ...................................... 181<br />
<strong>SPME</strong> Products .................................................... 182<br />
1
Books<br />
Foods<br />
<strong>SPME</strong> Application <strong>Guide</strong> 6th Edition<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Techniques for Analyzing Food Aroma, Supelco Cat. # 26589-u<br />
Marcel Decker ISBN: 0-8247-9788-4, Marsili, R.<br />
Solid Phase Microextraction: A Practical <strong>Guide</strong> Supelco Cat. # 26610-u<br />
Edited by SueAnn Scheppers Wercinski<br />
Marcel Decker 15BN: 0-8247-7058-7<br />
Solid Phase Microextraction: Theory and Practice Supelco Cat. # 26591-u<br />
Edited by Janusz Pawliszyn<br />
VCH, New York, 275pp (1997)<br />
<strong>Applications</strong> of Solid Phase Microextraction Supelco Cat. # 26611-u<br />
Edited by Janusz Pawliszyn<br />
RSC Chromatography Monographs ISBN 0-85404-525-2<br />
Royal Society of Chemistry 1999<br />
Applied <strong>SPME</strong>, 1999, 364-371 Royal Society of<br />
Chemistry, Cambridge, UK Coden: 67TUA8<br />
Talon, R, Montel, M.<br />
601 Aroma compounds Developments in extraction techniques and their Review article GC<br />
in food application to analysis of volatiles in foods<br />
Trends-Anal-Chem, May 2000, 19(5), 322-329<br />
Sides, S., Robards, K., Helliwell, S.<br />
602 Contaminants Application of <strong>SPME</strong> in Food Analysis Review article GC, LC, MS<br />
in Food J. Chromatogr. A (2000), 880(1+2), 35-62<br />
Kataok, H., Lord, H., Pawliszyn, J.<br />
784 Catechins, cafeine Automated in-tube solid phase microextraction coupled polypyrrole capillary LC-ES-MS<br />
in tes with HPLC-ES-MS for the determination of catechins<br />
and caffeine in tea<br />
Analyst (Cambridge, U. K.) (2000) 125(12), 2216-2222<br />
Wu, J. C.; Xie, W.; Pawliszyn, J.<br />
834 Caffeine Caffeine determination in beverages by <strong>SPME</strong> and GC-MS<br />
in beverages Ind. Bevande (2000) 29(170) 595-597, 605<br />
Guidotti, Maurizio; Panzironi, Laura<br />
8 Caffeine and flavors Solventless Determination of Caffeine in uncoated fiber GC-MS<br />
in coffee/tea/cola Beverages Using <strong>SPME</strong> with Fused Silica Fibers<br />
J. Chromatogr. 603: 185-191 (1992)<br />
Hawthorne, S., Miller, D., Arthur, C., Pawliszyn, J.<br />
5 min<br />
32 Flavors in Solid Phase Microextraction for Flavor Analysis 100µm PDMS GC/GC-MS<br />
coffee/fruit juice/ J. Agric. Food Chem, 42: 1925-1930 (1994) 10 min<br />
vegetable oil Peppard, T., Yang, X.<br />
603 Volatiles Analysis of volatile contaminants in vegetable oils by 75µm Carboxen/PDMS GC-MS<br />
in vegetable oil headspace <strong>SPME</strong> with Carboxen-based fibers. 30-45 min @ 100°C<br />
J. Chromatogr. 873 (2000): 79-94<br />
Page, B., Lacroix, G.<br />
headspace<br />
39 Halogenated volatiles Application of <strong>SPME</strong> to the Headspace GC Analysis of GC<br />
in food Halogenated Volatiles in Selected Foods<br />
J. Chromatogr. 648 (1): 199-211 (1993)<br />
Page, B., Lacroix, G.<br />
Ambient temperature, unless otherwise indicated. 2
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
41 Fatty acids C2-C10 Determination of Fatty Acids Using <strong>SPME</strong> 85µm polyacrylate GC/GC-MS<br />
in water Anal. Chem: 67(23): 4396-4403 (1995) Low pH, salt<br />
Pan, L., Adams, M., Pawliszyn, J. derivative: 1-pyrenediazomethane<br />
42 Flavors in Measuring Flavors Using <strong>SPME</strong> 100µm PDMS GC-MS<br />
corn oil Food Quality January/February 1995, pp40-41<br />
Mindrup, R.<br />
40°C, 45 min<br />
925 Flavors, off-flavors Sample preparation for the analysis of flavors and Review article<br />
in food off-flavors in foods<br />
J. Chromatogr A, 2000, 873(1), 3-11<br />
Wilkes, J., Conte, E., Kim, Y., Holcomb, M., Sutherland, J.<br />
Miller, D.<br />
883 Flavors in Recent application of <strong>SPME</strong> for monitoring flavor 75µm Carboxen/PDMS GC-MS<br />
food components in foods<br />
Food Testing & Analysis Feb./March 2000, 17-20<br />
Mindrup, R.<br />
65µm DVB/PDMS<br />
181 Flavors in <strong>SPME</strong> Associated with Microwave Assisted 100µm PDMS SIM GC-MS<br />
coffee, potato chips Extraction of Food Products pH 2, salt<br />
J. High Res. Chromatogr. 20 (4): 213-216 (1997) headspace<br />
Wang, Y., Bonella, M., Khaled, M., McNair, H. 10 min<br />
60 Sulfur volatiles in Headspace <strong>SPME</strong> Analysis of Volatile Organic Sulfur<br />
truffle aroma Compounds in Black and White Truffle Aroma<br />
J. Agric. Food Chem, 43 (8): 2138-2143 (1995)<br />
Pelusio, F., Nilsson, T., Tino, R., Larsen, B., Montnarell, L.<br />
830 Sulfur compounds Changes of aroma in shell eggs<br />
from egg shell Czech J. Food Sci (2000) 18, 231-233<br />
Adamiec, J.; Dolezal, M.; Mikova, K.; Davidek, J<br />
831 Sulfur compounds Limitations to the use of <strong>SPME</strong> for quantitation<br />
of mixtures of volatile organic sulfur compounds<br />
Anal. Chem (2001) 73(7) 1646-1649<br />
Murray, R. A.<br />
604 Aroma compounds Determination of major aroma impact compounds in 75µm Carboxen/PDMS GC-MS<br />
in fermented fermented cucumbers by <strong>SPME</strong>-GC-MS- 20min @50°C<br />
cucumbers Olfactometry detection<br />
J. Chromatogr. Sci. (2000), 38(7), 307-314<br />
Marsili, R., Miller, N.<br />
NaCl added<br />
61 Flavors in <strong>SPME</strong> of Flavor Compounds -- A Comparison of Two Fiber 100µm PDMS, GC-FID<br />
cinnamon bark Coatings and Discussion of the Rules of Thumb for Adsorption 85µm polyacrylate<br />
LC-GC 13 (11): 882-886 (1995) 120°C<br />
Yang, X., Peppard, T. headspace<br />
62 Flavors in <strong>SPME</strong> and Chiral Gas Chromatography Separations 100µm PDMS GC-FID<br />
apple essence, LC-GC 13 (9): 734-740 (1995) 30°C or 40°C<br />
seeds, candy Mani, V., Woolley, C. headspace<br />
772 Volatiles in Analysis of volatile constituents of mustard paste by GC/MS 100µm PDMS GC-MS<br />
mustard paste w/<strong>SPME</strong> and simultaneous distillation and extraction<br />
Fenxi Huaxue (2000) 28(12) 1489-1492<br />
30min @ 70°C<br />
Liu, B. in Chinese<br />
Ambient temperature, unless otherwise indicated. 3
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
854 Volatiles in Analysis of the volatile components in vanilla extracts and 85µm polyacrylate GC-MS<br />
vanilla extracts flavourings by <strong>SPME</strong> and gas chromatography<br />
J Ag Food Chem (2000) 48(12), 5802-5807<br />
Sostaric, T.; Boyce, M. C.; Spickett, E. E.<br />
40min @20°C<br />
829 Volatiles of Analysis of headspace compounds of distillers grains using 75µm Carboxen/PDMS GC-MS<br />
distillers grains <strong>SPME</strong> in conjunction with GC/MS and TGA. 60min<br />
J Cereal Sci. (2001) 33(2), 223-229<br />
Staff, C., Biswas, S.<br />
headspace<br />
878 Essential oils in <strong>SPME</strong> of hop volatiles Potential use for determination and 100µm PDMS GC-MS<br />
hops verification of hop varieties 30min @ 70°C<br />
J. Chromatogr A 918 (2001) 159-167<br />
Kovacevic, M., Kac, M.<br />
headspace<br />
63 Essential oils in Determination of Essential Oils in Hops by Headspace <strong>SPME</strong> 100µm PDMS GC-FID<br />
hops J. Agric. Food. Chem, 44: 1768-1772 (1996)<br />
Field, J., Nickerson, G., James, D. Heider, C.<br />
50°C, 4 hr<br />
605 Essential oils Production of Yarrow (Achillea millefolium L.) in Norway: 100µm PDMS GC-MS<br />
in yarrow Essential Oil Content and Quality 40min @ 50°C<br />
J. Agric. Food Chem, (2000) 48 No,12, 6205-6209<br />
Rohloff, J., Skagen, E., Steen, A., Iversen, T.<br />
headspace<br />
221 Essential oils in A Comparison of Selected Analytical Approaches to the 100µm PDMS GC-MS<br />
Virginia cedar oil Analysis of an Essential Oil 10-120 sec<br />
Flavour and Fragrance Journal 12 (1): 1-8, (1997)<br />
Coleman, W., Lawrence, B.<br />
headspace<br />
396 Essential oils in Automatic Injection <strong>SPME</strong>-Chiral-GC-MSD Analysis of 7µm PDMS GC-MS<br />
Virginia cedar oil Essential Oils 6 sec<br />
J.Chromatographic Sci., Vol. 36, Dec. 1998, 575-578 headspace<br />
Coleman, W., Perfetti, T., Lawrence, B. stirring<br />
444 Volatiles in Identification of Volatile Compounds in Sunflower Oil 100µm PDMS GC-MS<br />
sunflower oil by Headspace <strong>SPME</strong> and Ion-Trap GC/MS<br />
J. High Resolut. Chromatgr. (1998), 46(7), 2744-2747<br />
Keszler, A., Heberger, K., Gude M.<br />
841 Volatiles in Mechanism of volatile compound production during storage 100µm PDMS GC-MS<br />
sunflower oil of sunflower oil 40 min @ 25°C<br />
J Ag Food Chem. (2000) 48(12), 5981-5985<br />
Keszler, A., Kiska, T. Nemeth, A..<br />
headspace<br />
569 12 Aldehydes Influence of extraction parameters and medium on 100µm PDMS GC-MS<br />
in sunflower oil/water efficiency of <strong>SPME</strong> sampling in analysis of aliphatic aldehydes 30 min @ 40°C<br />
J-Chromatogram-A. 11 Jun 1999; 845(1-2): 337-347<br />
Keszler,-A; Heberger,-K<br />
headspace<br />
447 Xylene Determination of trace xylene in contaminated palm 100µm PDMS GC-FID<br />
in palm oil oil by <strong>SPME</strong> and capillary GC 1 min. 60°C<br />
Fenxi Huaxue (1999), 27(6), 676-678 headspace<br />
Chen, W., Guo, C., Hu, C.<br />
803 Volatiles Volatile compounds of virgin olive oil evaluated by <strong>SPME</strong><br />
in olive oil An application in the discrimination of virgin olive oils<br />
according to the cultivar and area<br />
Proceedings of the Phytochemical Society of Europe<br />
(2000) Vol. 46, 211-220<br />
Servili, M; Montedoro, G; Selvaggini, R; Taticchi, A<br />
577 Dimetyl disulfide & Volatile reduced sulfur compounds in butter by <strong>SPME</strong> 85µm polyacrylate GC-EID<br />
methanethiol J-Dairy-Res. Feb 1999; 66(1): 115-123 10 min. @ 30-35°C<br />
in butter Shooter,-D; Jayatissa,-N; Renner,-N<br />
Ambient temperature, unless otherwise indicated. 4
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
338 Benzene, toluene Determination of benzene & toluene in vegetable HPLC<br />
in vegetable oil oil by <strong>SPME</strong>/HPLC headspace<br />
J. Commod. Sci. (1999), 38(1), 3-14<br />
Giuffrida, R., Clasadonte, M., Zerbo, A.<br />
606 Volatiles Headspace <strong>SPME</strong> use for the Characterization of volatile Carboxen/DVB/PDMS GC-FID<br />
in vegetable oil compounds in vegetable oils of different sensory quality 20-60°C<br />
J. Agric Food Chem, (2000), 48(6), 2360-2367 headspace<br />
Jelen, H., Obuchowska, M., Zawirska-Wojtasiak, R.<br />
885 Steroisomers Different stereoselectivity in the reduction of pulegone GC-MS<br />
Pulegone enantiomers by Mentha species<br />
Planta Medica (2001) 67(3) 260-262<br />
Mosandl, A.; Beck, T.; Fuchs, S.<br />
106 Flavors in Characterization of Beer Samples Using <strong>SPME</strong>-GC Analysis 100µm PDMS GC-FID<br />
beer Supelco Reporter Vol. 16, #4, pg. 7<br />
Vas, G.<br />
10 min<br />
607 Sulfur compounds Determination of sulfur compounds in beer using headspace 65µm Carboxen/PDMS GC-FPD<br />
in beer <strong>SPME</strong> and GC analysis with pulsed FPD detector 32min @45°C<br />
J. Chromatogr. A. (2000), 872(1+2), 203-213<br />
Hill, P., Smith, R.<br />
headspace<br />
100 Flavors Characterization of Commercial Vodkas by <strong>SPME</strong>-GC/MS 100µm PDMS GC-MS<br />
in vodka J. Sci. Food Agric. 70: 380-388 (1996)<br />
Ng, L., Hupe, M., Harnois, J., Moccia, D.<br />
1 hr<br />
202 Methylcyclopendienyl Determination of Methylcyclopendienyl Manganese Tricarbonyl<br />
manganese in Beverages by <strong>SPME</strong><br />
tricarbonyl Food Addit. Contam. 14 (3): 301-307 (1997)<br />
in beverages Forsyth, D., Dusseault, L.<br />
395 Aroma volatiles Determination of Fresh Onion (Allium Cepa L) Volatiles 100µm PDMS GC-MS<br />
in onion by <strong>SPME</strong> Combined with GC/MS 1 min<br />
Z Lebedsm Unters Forsch A (1998) 207: 39-43<br />
Jarvedpaa, E., Zhung, Z., Huopalahti, R., King, J.<br />
headspace<br />
799 Aroma volatiles Possible advantage of various sample transfer techniques 100µm PDMS, GC-MS<br />
in onion for fast GC-MS analysis of true onion volatiles polyacrylate<br />
J. Chromatogr. A. (2000), 896(1+2), 117-124 2min, headspace<br />
Arnault, I.; Mondy, N.; Cadoux, F.; Auger, J.<br />
954 Fatty acids, Analysis of free fatty acids in whey products by <strong>SPME</strong> 30µm PDMS GC-FID<br />
in whey products J Agric Food Chem, 2001, 49, 3993-3998 40 min @ 110°C<br />
Tomaino, R., Parker, J., Larick, D. headspace<br />
816 Fatty acids, lactones Determination of free fatty acids and lactones in cheese<br />
in cheese by solid phase microextraction (<strong>SPME</strong>)<br />
Aust. J. Dairy Technol.,(1998), 53(2), 140<br />
Wijesundera, C., Drury, L., Walsh, T.<br />
101 Flavors <strong>SPME</strong> for Cheese Volatile Compound Analysis 100µm PDMS, GC, GC-MS<br />
in cheese J. Food Sci. 61: 1118-1129 (1996) polyacrylate<br />
Chin, H., Bernhard, R., Rosenberg, M. 60°C, 20 min<br />
788 Volatilse Solid-Phase Microextraction-Mass Spectrometry: A New GC-MS<br />
in cheese Approach to the Rapid Characterization of Cheeses<br />
Anal. Chem (2001) 73(5), 1030-1036<br />
Peres, Christophe; Viallon, Christine; Berdague, Jean-Louis<br />
826 Volatiles in Use of preconcentration techniques applied to a Mass GC-MS<br />
Emmital cheese Spectrometer based "Electronic Nose".<br />
Analusis (2000) 28(8), 743-749<br />
Bosset, J.; Escher, F.; Schaller, E.; Zenhausern, S.; Zesiger, T.<br />
Ambient temperature, unless otherwise indicated. 5
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
380 Aroma volatiles Pattern Recognition of Swiss Cheese Aroma Compounds by 85µm polyacrylate GC-FID<br />
in cheese <strong>SPME</strong>/GC and an Electronic Nose 40°C, 30 min<br />
Milchwissenscaft (1998) 53 (5) 259-263<br />
Jou, K., Harper, W.<br />
headspace<br />
449 Aroma volatiles Cryo-trapping/<strong>SPME</strong>/GC analysis of cheese aroma 100µm PDMS GC-FID, EMS<br />
in cheese Talanta (1999) 48(4), 747-753 4 min @ 20°C<br />
Jaillais, B., Bertrand, V., Auger, J. headspace<br />
187 Volatiles in A Study of Volatile "Trapping" in Spray-Dried Whey Protein GC-MS<br />
whey protein Concentrate by Crushing and/or Vacuuming and Detection<br />
by <strong>SPME</strong>/GC-MS<br />
Food Res. Int. 29: 495-504 (1996)<br />
Stevenson, R., Chen, X.<br />
379 Volatiles in Use of <strong>SPME</strong> of Volatile Compounds in Whey Protein 85µm polyacrylate GC-MS<br />
whey protein Concentrates 40°C, 30 min<br />
Milchwissenschaft (1998) 53 (4) 209-212<br />
Yang, J., Li, W., Harper, W.<br />
headspace, stirring<br />
450 Volatiles in Headspace sampling of whey protein concentrate GC-MS<br />
whey protein solutions using <strong>SPME</strong> headspace<br />
Food Res. Int. (1999), 31(5), 371-379<br />
Le Quanch, M., Chen, X., Stevenson, R.<br />
422 Flavors in Isolation of Flavor Compounds from Protein Material<br />
protein ACS Symp. Ser. (1998), 705 (Flavor Analysis), 107-115<br />
Mills, O., Broome, A.<br />
102 Flavors in Qualitative and Quantitative Analysis of Flavor Carbowax/DVB GC-MS<br />
tobacco Additives on Tobacco Products Using <strong>SPME</strong>-GC-MS 95°C, 15 min<br />
J. Agric. Food Chem. 45: 844-849 (1997)<br />
Clark, J., Bunch, J.<br />
headspace<br />
137 Phenols in Quantitative Determination of Phenols in Mainstream Smoke Polyacrylate GC-MS<br />
tobacco smoke with <strong>SPME</strong>-GC Selected Ion Monitoring MS<br />
J. Chromatogr. Sci. 34: 272-275 (1996)<br />
Clark, J., Bunch, J.<br />
Buffer, 1 hr<br />
608 Acetates Quantitative analysis of acetates in cigarette tobacco 75µm Carboxen/PDMS GC-MS<br />
in Cigarette tobacco using <strong>SPME</strong> and GC-MS<br />
J. Chromatogr. Sci. (2000), 38(4), 137-144<br />
Watxon, C., Ashley, D.<br />
5min. Headspace<br />
369 Carboxylic acid esters Derivatization of <strong>SPME</strong> GC-MS Determination of 85µm polyacrylate GC-MS<br />
in tobacco Organic Acids in Tobacco 15 min, stirring<br />
J. Chromatographic Science, Vol. 35, (1997) 209-212<br />
Clark, J., Bunch, J.<br />
MeOH-HCl derivatives<br />
822 Alkenylbenzenes <strong>SPME</strong> of alkenylbenzenes and other flavor-related 65µm Carbowax/DVB GC-MS<br />
flavor compounds compounds from tobacco for analysis by selected ion 2min @ 95°C<br />
in tobacco monitoring GC-MS<br />
J. Chromatogr.A, 858 (1999) 79-89<br />
Stanfill, S., Ashley, D.<br />
931 Pesticide residues <strong>SPME</strong> applied to the analysis of pesticide residues 100µm PDMS, GC-ECD<br />
in honey in honey using GC with ECD 60min @ 70°C<br />
J. Chromatogr. A (1998), 829(1-2), 269-277 immersed<br />
Jiméniz, J., Bernal, J., del Nozal, G., Martin, M., Mayorga, A. agitated<br />
Ambient temperature, unless otherwise indicated. 6
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
431 Phenols in Application of <strong>SPME</strong> in Determination of Phenol in Honey<br />
honey Riv. Sci. Aliment, (1997) 26(3/4), 97-102<br />
Conte, L., Botolomeazzi, R., Moret, S., Sibaini, A.,<br />
Marcazzan, G.<br />
433 Volatile organics Identification of Volatile Organic Compounds Present GC-MS<br />
in honey in Different Honeys Through <strong>SPME</strong> and GC/MS<br />
Ind. Alimenti., (1998), 37(368), 351-356<br />
Guidotti, M., Vitali, M.<br />
109 Aroma volatiles in Comparison of Dynamic Headspace Concentration 100µm PDMS, GC-MS<br />
carbonated cola on Tenax with <strong>SPME</strong> for Analysis of Aroma Volatiles 85µm polyacrylate<br />
beverages J. Agric. Food Chem. 45: 2638-2641 (1997) 60°C, 30 min<br />
Elmore, S., Erbahdir, M., Mottram, D. headspace<br />
349 Aroma volatiles in <strong>SPME</strong> <strong>Applications</strong> in Gas Chromatography Olfactometry 100µm, 30µm, 7µm PDMS GC-FID<br />
brewed coffee Dilution Analysis 1-90 min<br />
J. Agric. Food Chem. 1999, 47, 1616-1618<br />
Deibler, K., Acree, T., Lavin, E.<br />
headspace, stirring<br />
119 Aroma in Solid Phase Microextraction: A Valuable Problem Solver various fibers &<br />
food products Food Product Design December 1996, pp 73-77<br />
Marsili, R.<br />
extraction conditions<br />
128 Flavor volatiles in Analysis of Flavor Volatiles Using Headspace <strong>SPME</strong> 85µm polyacrylate GC-FID<br />
fruit juice J. Agric. Food Chem. 44: 2187 (1997) 60 min, salt added<br />
Steffen, A., Pawliszyn, J. headspace, stirring<br />
609 Aroma compounds Screening of Brazilian fruit aromas using <strong>SPME</strong>-GC-MS various fibers GC-MS<br />
in Brazilian fruit J. Chromatogr. A.,873(1), 117-127 headspace<br />
Augusto, F., Valenta, A., dosSantos, T., Rivellino, S.<br />
425 Volatiles Analysis of Volatile Fruit Components by Headspace 100µm PDMS GC-MS<br />
in fruit Solid Phase Microextraction 30 min @ 30°C<br />
Food Chem. (1998), 63(2), 281-286<br />
Ibanez, E., Lopez-Sebastian, S., Ramos, E., Tabera, J.<br />
Reglero, G.<br />
headspace<br />
872 Phenolics Sample preparation in the determination of phenolic review article<br />
in fruits compounds in fruits<br />
Analyst (Cambridge, U. K.) (2000) 125(5) 989-1009<br />
Antolovich, M.; Prenzler, P.; Robards, K.; Ryan, D.<br />
130 Flavor volatiles in Flavor Volatiles in Fruit Beverage with Automated <strong>SPME</strong> 100µm PDMS, GC-FID<br />
fruit beverage Food Test. Anal, 2(3), pp16-18 (1996) 85µm polyacrylate<br />
Penton, Z. 20 min, headspace<br />
424 Oxidative byproducts Changes in Citrus Hystrix Oil During Autoxidation<br />
in citrus hystrix oil Dev. Food Sci. (1998), 40 (Food Flavors: Formation,<br />
Analysis and Packaging Influences), 707-718<br />
Pudil, F., Wijaya, H., Janda, V., Volfova, J., Valentova, H.,<br />
Porkorny, J.<br />
893 Monoterpenes Degradation of monoterpenes in orange juice 100µm PDMS GC-MSD<br />
in orange juice by gamma radiation 60°C, 20 min<br />
J. Ag Food Chem. (2001) 49(5) 2422-2426<br />
Fan, Xuetong; Gates, Robert A<br />
headspace, stirring<br />
358 Flavor compounds Optimization of <strong>SPME</strong> Analysis for Headspace 100µm PDMS GC-FID<br />
in orange juice Flavor Compounds of Orange Juice 60°C, 20 min<br />
J. Agric. Food Chem. 1998, 46, 2744-2747<br />
Jia, M., Zhang, H., Min, D.<br />
headspace, stirring<br />
Ambient temperature, unless otherwise indicated. 7
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
451 Flavor compounds Pulsed electric field processing effects on flavor<br />
in orange juice compounds and microorganism of orange juice<br />
Food Chem (1999), 65(4), 445-451<br />
Jia, M., Zhang, Q, Min, D.<br />
561 Flavor compounds Volatiles from Unpasteurized and Excessively 75µm Carboxen/PDMS GC-MS<br />
in orange juice heated orange juice with <strong>SPME</strong> and 30 min Headspace<br />
GC Olfactometry 40°C<br />
J. Food Science, Vol.64, N0.5, 1999, 800-803<br />
Bazemore, R., Goodner, K. Rouseff, R.<br />
359 Flavors in Comparison of Gas-Sampled and <strong>SPME</strong>-Sampled Static 65µm PDMS/DVB GC-MS<br />
fruit juices Headspace for the Determination of Volatile Flavor Compounds 40°C, 30 min<br />
Anal. Chem. Vol. 71, No. 1, January 1, 1999, pg 23-27<br />
Miller, M., Stuart, J.<br />
headspace<br />
131 Flavor volatiles Solid Phase Microextraction for Quantitative 100µm PDMS GC-MS<br />
in apples Headspace Sampling of Apple Volatiles 30 min<br />
Anal. Chem. 68: 4114 (1996)<br />
Matich, A., Rowan, D., Banks, N.<br />
headspace<br />
203 Flavor volatiles Rapid Analysis of Volatile Flavor Compounds in 100µm PDMS GC-FID<br />
In apples Apple Fruit Using <strong>SPME</strong> & GC-Time-of-Flight Mass Spec 2-8 min<br />
J. Agric. Food Chem. 45: 1801-1807 (1997)<br />
Song, J., Gardner, B., Holand, J., Beaudry, R.<br />
headspace<br />
433 Volatiles in Volatile Production and Fruit Quality During Development<br />
red delicious apples of Superficial Scald in Red Delicious Apples<br />
Food Res. Int. (1997), 30(2), 95-103<br />
Paliyath, G., Whiting, M., Stasiak, M., Murr, D., Clegg, G.<br />
899 Aroma compounds Influence of packaging on the aroma stability of strawberry 100µm PDMS GC-FID<br />
in strawberries syrup during shelf life 60 min @ 50°C<br />
J. Agric. Food Chem. 49(5): 2290-2297 (2001) headspace<br />
Ducruet, V Feigenbaum, A; Fournier, N; Guichard, E; Saillard, P. agitated<br />
383 Flavor volatiles in Application of <strong>SPME</strong> and GC/Time-o-Flight Mass 65µm PDMS/DVB GC-MS<br />
tomato, strawberry Spectrometry for Rapid Analysis of Flavor Volatiles 23°C, 12 min<br />
in Tomato and Strawberry Fruits<br />
J. Agric. Food Chem. 46: 3721-3726 (1998)<br />
Song, J., Fan, L., Beaudry, R.<br />
headspace<br />
452 Flavor volatiles in A new concept for the measurement of total<br />
tomato, strawberry, volatile compounds of food<br />
raspberries, apples Z. Lebenam. Unters, Forsch A, 1999, 208(4), 254-258<br />
Azodanlou, R., Darbellay, c., Luisier, J.,<br />
Villettaz,J., Amode, R.<br />
387 Flavor volatiles Comparison of Three Sample Preparation Techniques for the 100µm PDMS GC-MS<br />
in tomato Determination of Fresh Tomato Aroma Volatiles 30°C, 10 min<br />
Book: Flavor Science: Recent Developments, Buttery & headspace<br />
Shadhidi, Washington, DC, 1998 p. 289-292<br />
Krumbein, A., Ulrich, D.<br />
salt added<br />
766 Volatiles Volatile emissions of tomato<br />
in tomato Mededelingen Faculteit Landbouwkundige en Toegepaste<br />
Biologische Wetenschappen Universiteit Gent<br />
(1999) 64(4), 159-161<br />
Maes, K; Debergh, P; Sandra, P; Vercammen, J<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 8
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
933 Volatiles Critical aspects for the reliable headspace analysis of plants<br />
in tomato cultivated in vitro<br />
Phytochemical Analysis (2001) 12(3), 153-158<br />
Maes, K; Debergh, P; Sandra, P; Vercammen, J<br />
Pham-Tuan, Hai<br />
headspace<br />
400 Flavor volatiles Effect of Thermal Treatment in the Headspace Volatile 65µm Carbowax/DVB GC-MS<br />
in tomato juice Compounds of Tomato Juice 35°C, 30 min<br />
Istituto di Indstrie Agrarie, University of Perugi, via S.<br />
Costnazo I-06126, Pergia-Italy<br />
Servili, M., Selvaggini, R., Begliomini, A., Montedoro, G.<br />
CaCl added<br />
780 Flavor volatiles Relationships between the volatile compounds evaluated by 65µm Carbowax/DVB GC-EIMS<br />
in tomato juice <strong>SPME</strong> and the thermal treatment of tomato juice:<br />
optimization of the blanching parameters<br />
Food Chemistry (2000) 71(3), 407-415<br />
Servili, M.; Selvaggini, R.; Taticchi, A.;<br />
Begliomini, A. L.; Montedoro, G.<br />
29°C, 15 min<br />
214 Strawberries & apples Solid-Phase Microextraction: Artifact Formation and Its 85µm polyacrylate GC-MS<br />
in fruit homogenate Avoidance 30 sec<br />
Chromatographia 46: 63-66 (1997)<br />
Verhoeven, H., Beuerle, T., Schwab, W.<br />
immersion<br />
132 Aroma volatiles Analysis of Strawberry Aroma by <strong>SPME</strong><br />
in strawberry Dtsch. Lebesm - Rundsch. 91: 349 (1995)<br />
Ulrich, D., Eunert, S., Hober, E., Rapp, E.<br />
590 Aroma volatiles A new concept for the measurement of total volatile PDMS, CW/DVB, PDMS/DVB GC-FID<br />
in strawberries compounds of food. polyacrylate<br />
Z-Lebensm-Unters-Forsch-A. Apr 1999; 208(4): 254-258 30 min @ 25°C<br />
Azodanlou-R; Darbellay,C; Luisier,JL; Villettaz,JC; Amado,R headspace<br />
133 Aroma volatiles Evaluation of the Solid Phase Microextraction of<br />
in banana Aroma Compounds in Banana<br />
Collog.-Inst. Nat. Rech. Agron. 75 (Bioflavour 95) 117 (1995)<br />
Picque, D., Normand, A., Corrieu, G.<br />
750 Flavor volatiles Identification of volatile coumpounds in cantaloupe at 100µm PDMS GC-MS<br />
in cantaloupe various developmental stages using <strong>SPME</strong> 12.5 min headspace<br />
J Agric Food Chem 2001, 49(3), 1345-1352<br />
Beaulieu, J., Grimm, C.<br />
sat. salt, agitated<br />
150 Pyrazines <strong>SPME</strong> of Pyrazines in Model Reaction Systems<br />
J. Sci. Food Agric. 72: 91 (1996)<br />
Ibanez, E., Bernhard, R.<br />
934 Pyrazines Solid-phase microextraction with aqueous immersion for<br />
analysis of Maillard-generated pyrazines in model reaction<br />
system<br />
Diss. Abstr. Int., B 2000, 61(5), 2287<br />
Cai, Yanxuan<br />
356 Menthol <strong>SPME</strong>-GC-Mass Selective Detection Analysis of Selected 65µm Carboxen/PDMS GC-MS<br />
(natural) Sources of Menthol 50°C, 20 sec<br />
J. Chromatogr. Sci. (1998), 36(8) 401-405<br />
Coleman, W., Lawson, S.<br />
headspace<br />
453 Menthol, menthone Determination of menthol and menthone in food and ethoxy dimethylsiloxane GC-FID<br />
food/pharmaceutical pharmaceutical products by <strong>SPME</strong>-GC 15 min @ 30°C<br />
J. Chromatogr., A 1999, 847 (1+2), 161-169<br />
Ligor, M., Buszewski, B.<br />
immersed<br />
Ambient temperature, unless otherwise indicated. 9
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
610 Aroma Measurement of gas-liquid partition coefficient and 7µm PDMS GC-MS<br />
in perfume headspace concentration profiles of perfume materials 10 min headspace<br />
by <strong>SPME</strong> and capillary GC-MS<br />
J. Chromatogr. Sci. (2000), 38(9), 377-382<br />
Liu, Z. Wene, M.<br />
611 Flavor compounds Contribution of volatiles to the flavor of oatmeal 100µm PDMS GC-MS<br />
in oatmeal J. Sci Food Agric.1/15/2000, 80(2);, 247-254 water solution @ 100°C<br />
Zhou, M, Robards, K., Helliwell, S., Glennie-Hommes, M. headspace<br />
894 Flavor compounds Changes in the volatile profile of oats induced by processing 100µm PDMS GC-MS<br />
in oats J. Agric. Food Chem. 49 (5): 2125-2130 (2001) 30SEC @ 25°c<br />
Robards, Kevin; An, Min; Helliwell, Stuart; Sides, Alasdair headspace<br />
309 Flavors in <strong>SPME</strong> for the Analysis of Flavors various fibers<br />
food products Techniques for Analyzing Food Aroma, pp81-112,<br />
Food Sci. Technol., New York (1997)<br />
Harmon, A.<br />
& conditions<br />
388 Volatiles in Analysis of Volatile Fragrance and Flavor Compounds by 100µm PDMS GC-MS<br />
consumer products Headspace <strong>SPME</strong> Combined with Gas Chromatography/ 30 min<br />
Mass Spectrometry<br />
J. Chem. Educ. 1999, 76(2), 245-248<br />
Galipo, R., Canhoto, A., Walla, M., Morgan, S.<br />
headspace<br />
760 Flavor volatiles Solid Phase Microextraction for the enantiometric analysis of 85µm Polyacrylate GC-MS<br />
in beverages Flavors in Beverages 60 min., headspace<br />
J. AOAC Intl, Vol. 84, No. 2, 2001, 479-485<br />
Ebeler, S., Sun, G., Datta, M., Stremple, P., Vicker, A.<br />
salt added<br />
891 Volatile carbonyls Comparison of extraction techniques for GC GC-ECD<br />
in alcoholS determination of volatile carbonyl compounds in alcohols.<br />
Fresenius' J.Anal Chem. (2001) 369(7-8) 661-665<br />
Wardencki, W; Namiesnik, J; Orlita, J. PFBHA derivatives<br />
903 Carbonyls Determination of carbonyl compounds in water by GC<br />
in water derivatization <strong>SPME</strong> and GC analysis<br />
J. Chromatography A 1998, 809, 1-2, 75-87<br />
Bao,M., Pantani,F.,Griffini,O.,Burrini,D.,Santianni, D., Barbieri, K.<br />
454 Organic content Research on alcoholic beverages at Alko's control Lab GC-MS<br />
in alcoholic Kem.-Kemi, 1999, 26(2), 95-97<br />
beverage Lehtonen, P. Finnish<br />
455 Alcohols, esters, free Analysis of free fatty acids, higher alcohols and<br />
fatty acids esters in sake by headspace-<strong>SPME</strong><br />
in Sake Nippon Jozo Kyokaishi (1999), 94(3), 252-257 Japanese<br />
Utsunomiya, H.<br />
312 Flavor volatiles in Headspace Gas Chromatography Profiles of Fruit-Flavored 100µm PDMS GD-FID<br />
malt beverages Malt Beverages, Using <strong>SPME</strong> 45°C, 45-60 min<br />
J. Am. Soc. Brew. Chem. 55 (3): 112-118 (1997)<br />
Constant, M., Collier, J.<br />
headspace<br />
313 Alcohols, esters Solid Phase Microextraction for the Analysis of Some 85µm polyacrylate GC-FID<br />
in beer Alcohols and Esters in Beer: Comparison with Static 50°C, 30 min<br />
Headspace Method headspace<br />
J. Agric. Food Chem. 46 (4): 1469-1473 (1998)<br />
Wasowicz, E., Kaminski, E., Jelen, H., Wlazly, K.<br />
salt added<br />
456 Dimethyl sulfide Headspace <strong>SPME</strong> for the analysis of dimethyl 65µm Carboxen/PDMS GC-FPD<br />
in beer sulfide from beer 15 min @ 30°C<br />
J. Agric. Food Chem. 1999, 47(7), 2505-2508 headspace<br />
Scarlata, C. Ebeler, S. 1.5gm NaCl<br />
Ambient temperature, unless otherwise indicated. 10
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
612 Volatiles in Characterization of whiskIes using <strong>SPME</strong> with GC-MS 85µm polyacrylate GC-MS<br />
whiskies J.Chromatogr. A (2000) 896, 351-359 35 min<br />
Fitzgerald, G., James, K., MacNamara, K., Stack, M. headspace<br />
953 Volatiles A headspace <strong>SPME</strong> method for the determination of some 85µm polyacrylate GC-FID<br />
in sugar cane spirits secondary compounds of Brazilian sugar cane spirits by GC 25 min @ 60°C<br />
J Agric Food Chem, 2001, 49, 3533-3539 headspace<br />
Nonato, E., Carazza, F., Silva, C. Carvalho, C., Cardeal, Z. 2.5g NaCl<br />
595 Aroma volatiles Changes in odor of Bartlett pear brandy influenced by 100µm PDMS GC-EIMS<br />
in Brandy sunlight irradiation. 15 min @ 40°C<br />
Chemosphere. Mar 1999; 38(6): 1299-1303<br />
Kralj-Cigic,-I; Zupancic-Kralj,-L<br />
613 Aroma compounds Analysis of brandy aroma by <strong>SPME</strong> and liquid-liquid extraction 100µm PDMS GC-FID<br />
in brandy J. Sci. Food Agric. Apr 2000, 80(5), 625-630 30 min @ 50°C<br />
Ebeler, S., Terrien, M., Butzka, C. Headspace<br />
827 Aroma volatiles Optimization of headspace <strong>SPME</strong> for analysis of wine<br />
in wine aroma compounds<br />
Am Journal Enology and Viticul (2000) 51(4), 379-382 headspace<br />
Zoecklein, B. W.; Whiton, R. S<br />
901 Aroma volatiles Discrimination of wine aroma using an array of conducting<br />
in wine polymer sensors in conjunction with <strong>SPME</strong> technique<br />
Sens Actuators, B Chem (2001) 77(1-2), 401-408<br />
De Saja, J.A.; Fernandez, J.A.; Guadarrama, A.; Iniguez, M.; Souto, J<br />
896 Aroma volatiles Effect of cultural practices and environmental factors on GC-MS<br />
in wine fruit and wine quality<br />
Agriculturae Conspectus Scientificus 2001 66(1) 13-20<br />
Bravdo, Ben Ami<br />
135 Aroma volatiles Systematic Optimization of the Analysis of Wine Bouquet 85µm polyacrylate GC-FID<br />
in wine Components by <strong>SPME</strong> 15 min<br />
J. High Res. Chromatogr. 19: 257-262( 1996) immersion, stirring<br />
Garcia, D., Magnaghi, S., Danzer, K. pH 4, salt added<br />
798 trans-ResverAtrol Gas-phase post-derivatization following <strong>SPME</strong> for rapid GC-MS<br />
in wine determination of trans -resveratrol in wine by GC-MS 22°C<br />
Analytica Chimica Acta (2000) 424(1), 19-25 headspace<br />
Luan, T. G.; Li, G. K.; Zhang, Z. X. silyl derivative<br />
201 Procymidone residue Comparison of Two Recent Solventless Methods for the 100µm PDMS GC-MS<br />
in wine Determination of Procymidone Residues in Wines: 30 min<br />
Solid-Phase Microextraction-GC-MS and ELISA Tests immersion<br />
J. Agric. Food Chem. 45: 1519-1522 (1997)<br />
Urruty, L., Montury, M., Braci, M., Fournier, J., Dournel, J.<br />
stirring<br />
936 Aroma volatiles Qualitative and quantitative analyses of volatile organic<br />
in wine compounds in wines using <strong>SPME</strong>-GC<br />
Chem. Anal. (Warsaw, Pol.) (2001) 46(2) 215-224<br />
Buszewski, B; Ligor, M.<br />
314 Aroma volatiles Investigation of Wine Bouquet Components by <strong>SPME</strong>- 85µm polyacrylate GC-FID<br />
in wine Capillary GC, Using Different Fibers 30 min<br />
J. High Resolut. Chromatogr. 20 (12): 665-668 (1997) immersion<br />
De La Calle Garcia, D., Feller, K., Reichbacher, M.,<br />
Danzer, K., Hurlbeck, C., Bartzech, C.<br />
stirring<br />
428 Aroma volatiles Analysis of Wine Bouquet Components Using Headspace 85µm polyacrylate GC-MS<br />
in wine <strong>SPME</strong>-Capillary Gas Chromatography 60 min<br />
J. High Resolut. Chromatogr. (1998), 21(7), 373-377 headspace<br />
De La Calle Garcia, D., Feller, K., Reichbacher, M., Danzer, K., stirring<br />
Hurlbeck, C., Bartzech, C. salt added<br />
Ambient temperature, unless otherwise indicated. 11
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
824 Aroma volatiles Classification of wine samples according to origin and 85µm polyacrylate GC-MS<br />
in wine grape varieties on the basis of inorganic and organic 60 min<br />
trace analysis headspace<br />
American Lab, Oct. 1999, Vol. 31(20) 26-33 stirring<br />
Danzier, K., De La Calle Garcia, D., Thiel, G., Reichbacher, M., salt added<br />
94 Trichloroanisole Analysis of Cork Taint in Wine and Cork Material at 100µm PDMS SIM-GC-MS<br />
in wine Olfactory Sub-Threshold Levels by <strong>SPME</strong> 20°C, 30 min<br />
J. Agric. Food Chem. 45: 1995-1997 (1997)<br />
Fisher, C., Fischer, U.<br />
salt added<br />
385 Trichloroanisole Detection of Cork Taint in Wine Using Automated <strong>SPME</strong> in 100µm PDMS, GC-MS-SIM<br />
in wine Combination with GC-MS-SIM 85µm polyacrylate<br />
Book chapter 15: ACS Symposium Series 1999, Oxford 45°C, 25 min<br />
University Press, "Flavor Analysis Development in<br />
Isolation and Characterization"<br />
Butzke, C., Evans, T., Ebeler, S.<br />
headspace<br />
377 Sulfides, disulfides Headspace <strong>SPME</strong> Analysis of Volatile Sulfides and 100µm PDMS, GC-FPD<br />
in wine Disulfides in Wine Aroma 85µm polyacrylate<br />
J. Chromatogr. A 808 (1998) 211-218 30°C, 15 min, salt<br />
Mestres, M., Busto, O., Guasch, J. headspace<br />
406 Sulfides, disulfides Headspace <strong>SPME</strong> of Sulfides and Disulfides Using 75µm Carboxen/PDMS GC-FPD<br />
in wine Carboxen/PDMS Fibers in the Analysis of Wine Aroma 25°C, 30 min<br />
J. Chromatogr. A, 835 (1999) 137-144 headspace<br />
Mestres, M., Sala, C., Marit, M., Busto, O., Guasch, J. stirring, salt added<br />
614 Benzothiazoles Analysis of benzothiazole in Italian wines using 65µm Carbowax/DVB GC-MS<br />
in wine <strong>SPME</strong>-GC-MS 15min @ 50°C<br />
J. Agric. Food Chem. (2000), 48(4), 1239-1242 headspace<br />
Bellavia, V., Natangelo, M., Fanelli, R., Rotilio, D.<br />
363 Aroma volatiles Similarities in the Aroma Chemistry of Gewurztraminer 100µm PDMS GC-MS<br />
in wine Variety of Wines and Lychee (Litchi chinesis Sonn.) Fruit 15 min<br />
J. Agri. Food Chem. 1999, 47, 665-670<br />
Ong, P., Acrees, T.<br />
headspace<br />
427 Volatiles Fast Screening Method for Wine Headspace Compounds headspace<br />
in wine Using <strong>SPME</strong> and Capillary GC Technique<br />
Am. J. Enol. Vitic. (1998), 49(1), 100-104<br />
Vas, G., Koteleky, K., Farkas, M., Ddobo, A., Vekey, K.<br />
397 Aroma volatiles Determination of Volatile Aroma Compounds of 100µm PDMS GC-MS<br />
in wine Blaufrankisch Wines Extracted by <strong>SPME</strong> 10 min (headspace)<br />
J. Chromatographic Sci., Vol. 36, Oct. 1998, 505-510<br />
Vas, G., Gal, L., Harangi, J., Dobo, A., Vekey, K.<br />
1 hr (immersion)<br />
457 Flavor volatiles Classification of wine samples according to origin 85µm polyacrylate GC-FID<br />
in wine and grape varieties on the basis of inorganic and 60-90 min<br />
organic trace analysis headspace<br />
Am. Laboratory, Oct. 1999, Vol. 31, No. 20, 26-34 Satr.salt<br />
Danzier, K, DeLaCalle Garcia, D, Thiel, G.,<br />
Reichenbacher, M<br />
458 Aroma volatiles Examination of aroma production kinetics of 100µm PDMS GC-FID<br />
in wine different commercial wine yeast in fermenting 10 min<br />
muscat ottonel wines with the help of <strong>SPME</strong><br />
headspace sampling and fast GC analysis<br />
Acta Aliment, (1999), 28(2), 133-140<br />
Vaes, W., Blechschmidt, I., Kovacs, T., Vekey, K.<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 12
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
582 Aroma volatiles Improvement of the chemometric variety characterization of 85µm polyacrylate GC-EMIS<br />
in wine wines by improving the detection limit for aroma compound 3 hr. , headspace<br />
J-High-Resolut-Chromatogr. Jun 1999; 22(6): 322-326<br />
Weber,-J; Beeg,-M; Bartzsch,-C; Feller,-K-H;<br />
De-la-Calle-Garcia,-D; Reichenbaecher,-M; Danzer,-M<br />
NaCl added<br />
459 Aroma volatiles Determination of volatiles from red wines made 100µm PDMS GC-EIMS<br />
in wine by carbonic maceration using <strong>SPME</strong> technique<br />
Acta Aliment, 1999, 28(1), 95-101<br />
Vas, G., Loerincz, G.<br />
10 min headspace<br />
559 Aroma volatiles Monitoring Toasting Intensity of Barrels by 100µm PDMS GC-FID<br />
from toasted oak Chromatographic Analysis of Volatile 30 min @ 22°C<br />
compounds from Toasted Oak Wood<br />
J. Agric. Food Chem, 1999, 47, 4310-4318 headspace<br />
Chatonnet, P., Cutzach, I., Pons, M., Dubourdieu, D.<br />
460 Polyphenolics Assembly tests of "Nero d'Avola" with wines GC-MS<br />
in red wine derived from an allocthonous cultivar: headspace<br />
study of polyphenolic and aromatic profiles. Italian<br />
Ind. Bevande (1999), 28(160), 119-126<br />
Papucci, A, Monte, L., D'Agostino, S,<br />
Aozzino, P., Avellone, G<br />
775 Esters Monitoring ester formation in grape juice fermentations 100µm PDMS GC-MS<br />
in grape juice using <strong>SPME</strong> coupled with GC-MS 1 hr.<br />
J. Agric. Food Chem (2001) 49(2), 589-595 headspace<br />
Vianna, E; Ebeler, S.<br />
315 Styrene Determination of Styrene in Wine by <strong>SPME</strong> and GC-MS GC-MS<br />
in wine Mitt. Klosterneuburg 47 (4): 117-123 (1997)<br />
Flak, W., Tscheik, G.<br />
311 Methylisocyanate <strong>SPME</strong> Analysis of Methyl Isothiocyanate in Wine 65µm Carbowax/DVB GC-FID, NPD<br />
in wine J. Agric. Food Chem. 45 (8): 3092-3094 (1997) 30 min<br />
Gandini, N., Riguzzi, R. headspace<br />
salt added<br />
366 Diacetyl Analysis of Diacetyl in Wine Using <strong>SPME</strong> -GC-MS 60µm Carbowax/DVB GC-MS<br />
in wine J. Agric Food Chem. 1999, 47, 612-617 24°C, 5 min<br />
Hayasaka, Y., Bartowsky, E. headspace<br />
salt added<br />
316 Pesticides Determination of Pesticide Residues in Wine by <strong>SPME</strong> and GC-MS<br />
in Wine GC/MS for Consumer Risk Assessment<br />
Food Addit. Contam. 15 (3): 280-287 (1998)<br />
Vitali, M., Guidotti, M., Giovinazao, R., Cendrone, O.<br />
615 Pesticide residue <strong>Applications</strong> of <strong>SPME</strong> to the Analysis of 100µm PDMS, GC-ECD<br />
on vegetables Pesticide Residues in Vegetables 60µm Carbowax/DVB GC-NPD<br />
Pest. Manag Sci 56: 618-636 (2000)<br />
Volante, M.,Pontello, M., Volante, L. Cattaneo, M., Bianchi, M.,<br />
Bianchi, M., Colzani, L.<br />
50 min<br />
774 Pesticide residue Study on the method of <strong>SPME</strong> coupled to GC for<br />
on vegetables determination of organophosphorus pesticide residue<br />
in vegetables.<br />
Ziran Kexueban (2000) 39(4), 509-515<br />
Chen, W; Hou, X; Zhang, L; Lin, H; Pan, Ji (in Chinese)<br />
432 Pesticides in Some <strong>Applications</strong> of <strong>SPME</strong> in the Analysis of<br />
food Pesticide Residues in Food<br />
J. Environ. Sci. Health, Part B (1998), B33 (3), 279-292<br />
Volante, M.,Cattaneo, M., Bianchi, M., Zoccola, G.<br />
Ambient temperature, unless otherwise indicated. 13
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
461 Pesticides <strong>SPME</strong> of pesticide residues from strawberries 100µm PDMS<br />
on strawberries Food Addit. Contam. (1999), 16(3), 111-117 45 min @ 25°C<br />
Hut, R., Henniont, B., Urrutyt, L., Monturyt, M.<br />
783 Pesticides <strong>SPME</strong> coupled with HPLC: a complementry technique to <strong>SPME</strong> 60µm PDMS/DVB LC-UV<br />
on strawberries GC for the analysis of pesticide residues in strawberries 45 min @ 25°C<br />
Food Addit. Contam. (2000), 17(11), 915-923 headspace<br />
Wang, Z.; Hennion, B.; Urruty, L.; Montury, M.<br />
462 Organophosphorus Validation of a <strong>SPME</strong> method for the 100µm PDMS GC-FPD<br />
pesticides in determination of organophosphorus pesticides 3 min<br />
fruit/fruit juices in fruits and fruit juice immersed<br />
J. Chromatogr. A (1999), 843(1), 35-42<br />
Simplicio, A, Vilas Boas, L.<br />
929 Organophosphorus Determination of organophosphorus pesticides in honeybees 85µm Polyacrylate GC-NPD<br />
pesticides in after solid phase microextraction 45min @ 25°C<br />
honeybees J. Chromatogr. A (2001), 922(1-2) 257-265 immersed<br />
Fernandez, M., Padron, C., Marconi, L., Colombo, R. Ghinie, S. stirred<br />
Sabatini, A, Girotti, S.<br />
463 Organochlorine & A Systematic Approach to Optimize <strong>SPME</strong><br />
organophosphorus determination of Pesticides in Ethanol/Water<br />
in water/ethanol mixtures used as Food Simulates<br />
Anal. Chem. (1999), 71(13), 2417-2422<br />
Batlle, R, Sanchez, C., Nerin, C.<br />
616 Volatiles Evidence for selectivity of absorption of volatile organics 30µm PDMS GC-MS<br />
in water compounds by PDMS <strong>SPME</strong> fiber 60min<br />
J. Chromatogr. A,(2000) 885, 457-464<br />
Niedziella, S., Rudkin, S., Cooke, M.<br />
headspace<br />
317 Aroma volatiles Analysis of Aroma Release During Microwave Heating 60µm Carbowax/DVB GC-FID<br />
in water traps J. Agric. Food Chem. 45 (11): 4388-4392 (1997) 10 min<br />
Roberts, D., Pollien, R. immersion, stirring<br />
435 Aroma volatiles <strong>SPME</strong> Associated with Microwave Assisted Extraction of<br />
in food products Food Products<br />
J. High Resolut. Chromatogr. (1997), 20(4), 213-216<br />
Wang, Y., Bonilla, M., McNari, H., Khaled, M.<br />
318 N-nitrosamines Rapid Semi-Quantitative Estimation of N-Nitrosodibulylamine 85µm polyacrylate GC-thermal<br />
in smoked hams and N-Nitrosodibenzylamine in Smoked Hams by <strong>SPME</strong> 10 min energy or MS<br />
Followed by GC-Thermal Energy Analysis headspace<br />
J. Chromatogr. A 788(1+2): 131-140 (1997) stirring<br />
Sen, N., Seaman, S., Page, B. salt added<br />
348 Flavor volatiles Application of <strong>SPME</strong> to the Analysis of Warmed 100µm PDMS GC-MS<br />
in beef Over Flavor in Beef 35°C, 10 min<br />
Poster Paper, IFT 1999<br />
Gruen, I., Fernando, L., Mobley, S.<br />
headspace<br />
890 Atrazine in Ethanol-modified subcritical water extraction combined 60µm Carbowax/DVB GC-MS<br />
beef with <strong>SPME</strong> for determining atrazine in beef kidney.<br />
J.Ag Food Chem (2001) 49(5) 2175-2180<br />
Curren, Meredith S. S.; King, Jerry<br />
30MIN @ 25°c<br />
617 Aroma compounds Two-fiber <strong>SPME</strong> combined with GC-MS for the analysis of Carboxen/PDMS. GC-MS<br />
in cooked pork volatile aroma compounds in cooked pork Carboxen/DVB/PDMS<br />
J. Chromatogr. A 905(2000), 233-240<br />
Elmore, J. Mottram, D., Hierro, E.<br />
30 min @ 60°C<br />
618 Hexanal, pentanal A comparison of <strong>SPME</strong> fibers for measurement of hexanal Carboxen/DVB/PDMS GC-FID<br />
in cooked turkey and pentanal in cooked turkey<br />
Food Chem Feb. 2000, 68(3), 339-345<br />
Brunton, N., Cronin, D, Durcan, R., Monahan, F.<br />
20 min, headspace @ 40°C<br />
Ambient temperature, unless otherwise indicated. 14
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
924 Volatiles <strong>SPME</strong> as a tool for studying volatile compounds in frog skin<br />
in frog skin Chemistry and Ecology 2000<br />
Smith, B, Zini, C., Pawliszyn, J. Tyler, M., Hayasaka, Y,<br />
Williams, B., Caramao, E.<br />
423 Volatiles Comparison of Volatile Analysis of Lipid-Containing and<br />
in meat Meat Matrices by <strong>SPME</strong> and SFE<br />
ACS Symp. Ser. (1998), 705 (Flavor Analysis), 107-115<br />
Snyder, J., King, J., Zhang, Z.<br />
786 Volaitle amines New method for the rapid determination of volatile GC-FID, NPD<br />
in fish substances: The <strong>SPME</strong>-direct method. Part II. Determination<br />
of the freshness of fish headspace<br />
Sens Actuators, B Chem (2001) 72(3), 204-207<br />
Bene, A.; Hayman, A.; Luisier, J.L.; Reynard, E.; Villettaz, J<br />
619 Volatiles from <strong>SPME</strong>/GC of Salmonella-Infected Beef 75µm Carboxen/PDMS GC-FID<br />
salmonellas infected J Agric Food Chem, 2000, 48, 2253-2259 10 min<br />
beef Ogihara, H., Horimoto, Y., Hai, Z., Skura, B., Nakai, S. 25% NaCl<br />
393 Volatiles from Use of Digital Aroma Technology and <strong>SPME</strong> GC-MS to 100µm PDMS GC-MS<br />
processed poultry compare Volatile compounds Produced by Bacteria 30 min @ 37°C<br />
isolated from Processed Poultry headspace<br />
J. Sci. food Agric. 1998, 78, 343-348<br />
Arnold, J., Senter, S.<br />
stirred<br />
862 Allyl isothiocyanate Formation of allyl isothiocyanate from sinigrin in the GC-MS<br />
in rats digestive tract of rats monoassociated with a human colonic<br />
strain of Bacteroides thetaiotaomicron<br />
FEMS Microbiology Letters (2001) 197(1) 99-103<br />
Rabot, S; Duguay, A; Elfoul, L; Khelifa, N; Quinsac,A; Rimbault, A<br />
headspace<br />
253 Putrescine, An Electrodeposition Device for the Determination of carbon fibers HPLC<br />
cadaverine in Putrescine and Cadaverine by High-Resolution GC 0-60 min, immersion (C18 column)<br />
borate buffer solution J. High Resolut. Chromatogr. 19 (5): 294-297 (1996) stirring<br />
Conte, E., Miller, D. pH 8<br />
620 Hexanal, pentanal Shelf-life prediction of processed milk by <strong>SPME</strong> -MS and 75µm Carboxen/PDMS GC-MS<br />
metabolites in milk multivariate analysis 20min. @ 50°C<br />
J. Agric Food chem (2000), 48(8), 3470-3475<br />
Marsili, R.<br />
headspace<br />
386 Oxidative byproducts Comparison of <strong>SPME</strong> and Dynamic Headspace Methods for 75µm Carboxen/PDMS GC-MS<br />
in milk the GC-MS Analysis of Lighted Induced Lipid Oxidation 45°C, 15 min<br />
Products in Milk headspace<br />
J. Chromatogr. Sci. 1999, 37, 17-23<br />
Marsili, R.<br />
salt added<br />
372 Off-flavors <strong>SPME</strong>-MS-MVA as an Electronic Nose for the Study of 75µm Carboxen/PDMS GC-MS<br />
in milk Off-Flavors in Milk 45°C, 12 min<br />
J. Agric. Food Chem. 1999, 47, 648-654<br />
Marsili, R.<br />
headspace<br />
621 Chlorinated organics Application of <strong>SPME</strong> for the rapid analysis of chlorinated GC-ECD<br />
in breast milk organics in breast milk<br />
Fresenius, J. Anal.Chem, Jan 2000, 366(1), 106-111<br />
Rohrig, L., Meisch, H.<br />
749 Acetaldehyde Flavor threshold for acetaldehyde in milk, chocolate milk, and 75µm Carboxen/PDMS GC-FID<br />
in milk & water spring water using <strong>SPME</strong>-GC for quantification 45°C, 15 min<br />
J.Agric.FoodChem 2001, 49(3), 1377-1381 headspace<br />
vanAardt, M., Duncan, S., Bourne, D., Marcy, J., Long, T.,<br />
Hackney, C., Heisey, C.,<br />
salt added<br />
Ambient temperature, unless otherwise indicated. 15
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
364 Off-flavors Off Flavor and Malodors in Food: Mechanism of Formation various fibers GC<br />
in food and Analytical Techniques<br />
Book-Techniques for Analyzing Food Aroma,<br />
Marcel Decker ISBN: 0-8247-9788-4<br />
Marsili, R.<br />
and conditions<br />
376 Volatile metabolites Evaluation of <strong>SPME</strong> for Analysis of Volatile Metabolites 85µm polyacrylate GC-FID<br />
in water Produced by Staphylococci 80°C, 15 min<br />
J. Agric. Food Chem. 1998, 46, 228-234<br />
Vergnais, L., Masson, F., Montel, M., Berdague, J., Talon, R.<br />
headspace, stirring<br />
365 Volatiles Determination of Volatile Organic Compounds in Tea 100µm PDMS GC-MS<br />
in tea Industrie de la Bevande XXVI (1997) febbralo, 19-22 50°C, 15 min<br />
Guidotti, M. headspace<br />
622 Polyphenols Comparative Study and Partial characterization of Azorean<br />
in green tea green Tea Polyphenols<br />
J. Food Compos. Anal. (1999), 12(4), 273-287<br />
Baptista, J., da P Tavares, J., Carvalho, R.<br />
319 Caffeine Quantitative Determination of Caffeine in Beverages, bare fiber GC-MS<br />
in tea, coffee Using a Combined <strong>SPME</strong>-GC-MS Method<br />
J. Chem. Educ. 74 (9): 1130-1132 (1997)<br />
Yang, M., Orton, M., Pawliszyn, J.<br />
381 Aroma volatiles Characterization of Roasted Coffee and Coffee Beverages 100µm PDMS, GC-MS<br />
in coffee by <strong>SPME</strong>-GC and Principal Component Analysis 7µm PDMS<br />
J. Agric. Food Chem. 1997, 45: 4680-4686 60°C, 5 min<br />
Bicchi, C., Panero, O., Pellegrino, G., Vanni, A. headspace<br />
302 Volatile aroma Obtention of a Brewed Coffee Aroma Extract by an 100µm PDMS GC-MS<br />
in brewed coffee Optimized Supercritical CO2-Based Process 60°C, 10 min<br />
J. Agric. Food Chem. 1998, 46, 4011-4016<br />
Ramos, E., Valero, E., Ibanez, E., Reglero, G., Tabera, J.<br />
headspace<br />
623 Aroma volatiles <strong>SPME</strong> Method Development for Headspace analysis of PDMS/DVB GC-MS<br />
in coffee volatile flavor compounds 60 min headspace<br />
J. Agri. Food Chem 2000, 48, (6) 2430-2437<br />
Roberts, D., Pollien, P., Milo, C.<br />
pH 2<br />
624 2-Acetyl-1-pyrroline Screening for 2-Acetyl-1-pyrroline in the Headspace of Rice 80µm Carboxen/DVB/PDMS GC-MS<br />
in rice using <strong>SPME</strong>/GC-MS 80°C, 15 min<br />
J. Agric. Food Chem 2001, 49, 245-249 headspace<br />
Grimm, C, Bergman, jC., Delgado, J., Bryant, R. .75gm in 100µl H20<br />
464 2-MIB, geosmin Microwave mediated distillation with <strong>SPME</strong> 100µm PDMS GC-MS<br />
in water determination off-flavors, geosmin and 25 min<br />
methylisoborneol, in catfish tissue immersed<br />
J. Chromatogr. A (1999), 833(2), 223-230 salt added<br />
Zhu, M., Aviles, F., Conte, E., Miller, D.,<br />
Perschbacher, P.<br />
625 2-MIB, geosmin Microwave Distillation-<strong>SPME</strong>-GC Analysis of 80µm Carboxen/DVB/PDMS GC-IC-MS<br />
in water 2-methylisoboreneol and Geosmin in Catfish 60°C, 20 min<br />
Am-Lab Feb 2000: 32(3), 40-48<br />
Lloyd, S., Grimm, C.<br />
heaspace<br />
2-MIB, geosmin Analysis of 2-Methylisoboreneol and Geosmin in Catfish 100µm PDMS GC-MS<br />
in water by Microwave Distillation-<strong>SPME</strong> 40°C, 15 min<br />
J. Agri. Food Chem., 47, No. 1, pg. 164-169, 1999 saturated salt<br />
Lloyd, S., Grimm, C. stirring<br />
Ambient temperature, unless otherwise indicated. 16
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
362 MIB & geosmin Determination of Geosmin and 2-Methylisoboreneol in Water Carboxen/DVB/PDMS GC-MS<br />
in water Using <strong>SPME</strong> and GC-Chemical Ionization/Electron Impact 60°C, 30 min<br />
Ionization Ion Trap MS headspace<br />
Analyst (Cambridge, U.K.) (1998), 123 (10), 2155-2160 stirring<br />
McCallum, R., Pendleton, P., Scumann, R., Trinh, M. salt added<br />
465 C2-C10 acid, Evaluating Peats for their capacities to remove 85µm polyacrylate GC-MS<br />
aldehydes, phenols odorous compounds from liquid swine manure 20 min @ 72°C<br />
in swine manure using headspace <strong>SPME</strong> headspace, pH 2<br />
J. Environ. Sci.Health, B34(4), 709-748 (1999)<br />
Rizzuti, A., Cohen, A., Hunt, P., Vanotti, M.<br />
966 Esters in wine Analysis of esters in wines Various GC<br />
J.Chromatogr. A (2002) 963(1-2), 213-223<br />
Rodriguez-Bencomo, J.J.; Conde, J.E.; Rodriguez-Delgado, M.A.; Garcia-<br />
Montelongo, F.; Perez-Trujillo, J.P.<br />
967 Aroma in onions Flavor and odor differences between fresh and preserved onions Polyacrylate GC-MS<br />
J.Chromatogr. A (2002) 963(1-2), 89-93<br />
Mondy, N.; Duplat, D.; Christides, J.P.; Arnault, L.; Auger, J.<br />
968 Volatiles in olive oil Influence of crushing technique on composition of volatiles in olive oil. 65 um Carbowax/DVB GC-MS<br />
969<br />
970<br />
992<br />
996<br />
997<br />
999<br />
European Journal of Lipid Science and Technology (2002) 104(8), 483-489 30 mins.<br />
Servili, M.; Piacquadio, P.; de Stefano, G.; Taticchi, A.; Sciancalepore, V.<br />
Volatiles in dry-cured<br />
ham Monitoring volatile compounds during the dry-cured ham ripening process<br />
J.Chromatogr. A (2002) 963(1-2), 83-88<br />
Andres, A.I.; Cava, R.; Ruiz, J.<br />
Bisphenol in food<br />
packaging<br />
Odour compounds in<br />
food packaging<br />
materials<br />
Photooxidative quality<br />
changes of havarti<br />
cheese.<br />
Volatile compounds<br />
from scallops<br />
1007 Insecticides in fruit<br />
Bisphenol type contaminants from food packaging materials in aqueous<br />
foods. HPLC<br />
J.Chromatogr. A (2002) 963(1-2), 375-380<br />
Nerin, C.; Philo, M.R.; Salafranca, J.; Castle, L.<br />
Development of headspace <strong>SPME</strong>, GC-MS method for the identification of<br />
odour causing volatile compounds in packaging materials. 75 um carboxen/PDMS GC-MS<br />
J.Chromatogr. A (2002) 963(1-2), 381-392<br />
Ezquerro, O.; Pons, B.; Tena, M.T.<br />
Response surface models used for prediction of photooxidative quality<br />
changes of havarti cheese. GC-MS<br />
European Food Research and Technology (2003) 216 (2), 93-98.<br />
Stapelfeldt, Henrik; Mortensen, Grith; Sorensen, John.<br />
Solid phase micro-extraction technique and its applications in medical<br />
analysis.<br />
Yaoxue Xuebao (2003) 38 (2), 153-158.<br />
Liu Zhen-ling; Wu Cai-ying.<br />
Volatile compounds recovered by solid-phase microextraction from fresh<br />
adductor muscle and total lipids from sea scallop ( Placopecten<br />
magellanicus ) from Georges Bank (Nova Scotia). PDMS/DVB GC-MS<br />
Journal of Food Science (2002) 67 (6), 2032-2037. 250 C, 2 minutes<br />
Linder, M.; Ackman, R. G.<br />
Headspace solid-phase microextraction in combination with gas<br />
chromatography-mass spectrometry for the rapid screening of<br />
organophosphorus insecticide residues in strawberries and cherries GC-MS<br />
J.Chromatogr. A (2003) 993(1-2), 197-203.<br />
Albanis, Triantafyllos A.; Lambropoulou, Dimitra A.<br />
Ambient temperature, unless otherwise indicated. 17
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1012 Mercury in fish<br />
1016 Volatiles in flowers<br />
1017<br />
1018<br />
Volatile byproducts in<br />
wine<br />
Terpenoids from<br />
hemlock<br />
1027 Volatiles from meats<br />
1044<br />
1052<br />
Volatiles and semivolatile<br />
in cigarettes.<br />
Oxidation of infant<br />
formula<br />
1053 Aroma compounds<br />
1055<br />
1063<br />
1064<br />
Volatile compounds<br />
from tea leaves.<br />
Volatile compounds<br />
from kimchi.<br />
Solid phase microextraction capillary gas chromatography combined with<br />
furnace atomization plasma emission spectrometry for speciation of<br />
mercury in fish tissues GC-FAPES<br />
Spectrochmica Acta - Part B Atomic Spectroscopy (2003) 58 (3), 427-441.<br />
Campos, Reinaldo C.; Grinberg, Patricia; Mester, Zoltan; Sturgeon, Ralph E.<br />
Volatile constituents of the leaves and flowers of Hypericum triquetrifolium<br />
Turrat GC-MS<br />
Flavour and Fragrance Journal (2003) 18 (2), 91-94.<br />
Bertoli, Alessandra; Mazzetti, Michele; Menichini, Francesco; Morelli, Ivano;<br />
Spinelli, Guido<br />
Evolution of volatile byproducts during wine fermentations using<br />
immobilized cells on grape skins.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (8), 2402-2408.<br />
Komaitis, Michael; Kanellaki, Maria; Koutinas, Athanasios; Mallouchos,<br />
Athanasios<br />
Analysis of terpenoids from hemlock (Tsuga) species by solid-phase<br />
microextraction/gas chromatography/ion-trap mass spectrometry. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (8), 2115-21120.<br />
Lagalante, Anthony F.; Montgomery, Michael E.<br />
Volatile components associated with freshly cooked and oxidized offflavours<br />
in turkey breast meat. GC-MS<br />
Flavour and Fragrance Journal 2002) 17 (5), 327-334.<br />
Brunton, N. P.; Cronin, D. A.*; Monahan, F. J.<br />
Analysis of volatile and semivolatile composition in cut tobacco and total<br />
particulate matter of cigarettes with <strong>SPME</strong>-GC-MS. 85 um Polyacrylate GC-MS<br />
Fenxi Shiyanshi (2002) 21 (5), 31-35.<br />
Li, R.; Wang, L.; Li, Q.; Tong, X. D.<br />
Comparison of mass spectrometry-based electronic nose and solid phase<br />
microextraction gas chromatography-mass spectrometry technique to<br />
assess infant formula oxidation. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (9), 2790-2796.<br />
Guy, Philippe A.; Fenaille, Francois; Fumeaux, Rene; Milo, Christian; Visani,<br />
Piero<br />
Formation of aroma compounds from ribose and cysteine during the<br />
maillard reaction. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (9), 2714-2721.<br />
Cerny, Christoph; Davidek, Tomas<br />
Solid-phase microextraction for studies on the enantiomeric composition of<br />
filbertone in hazelnut oils.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (9), 2496-2500.<br />
Ruiz del Castillo, M. L.; Blanch, G. P.; Flores, G.; Herraiz, M.<br />
Changes in lipoxygenase activity and volatile compounds of fresh tea leaves<br />
during early growing season. GC-MS<br />
Agricultural Chemistry and Biotechnology (2003) 46 (1), 23-27.<br />
Park, Seung-Kook; Kim, Hyun-Jeong; Lee, Sang-Jun; Roh, Jin-Chul; Ryu,<br />
Sung-Kwon<br />
Optimization of solid-phase microextraction for the analysis of the<br />
headspace volatile compounds in kimchi, a traditional Korean fermented<br />
vegetable product. 100 um PDMS<br />
Journal of Food Science (2003) 68 (3), 844-848.<br />
Min, D. B.; Kang, J. H.; Lee, J. H.<br />
Ambient temperature, unless otherwise indicated. 18
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1077 Volatile phenols in wine.<br />
1065<br />
1066<br />
1067<br />
1080<br />
1081<br />
Chloroanisoles from<br />
cork.<br />
Volatile free fatty acids<br />
in ewe cheese.<br />
Pyrimethanil and<br />
kresoxim-methyl in<br />
green groceries.<br />
Optimisation of headspace solid-phase microextraction for the analysis of<br />
volatile phenols in wine Carbowax/DVB<br />
Journal of Chromatography A (2003) 995 (1-2), 11-20.<br />
Castro Mejias, Remedios; Garcia Barroso, Carmelo; Garcia Moreno, Ma. De<br />
Valme; Natera Marin, Ramon<br />
Optimization of headspace sampling using solid-phase microextraction for<br />
chloroanisoles in cork stoppers and gas chromatography-ion-trap tandem<br />
mass spectrometric analysis.<br />
Journal of Separation Science (2003) 26 (5), 369-375.<br />
Musci, Marilena; Bianchi, Federica; Careri, Maria; Mangia, Alessandro<br />
75 um Carboxen/PDMS GC-MS-MS<br />
Solid-phase microextraction in combination with GC-MS for quantification of<br />
the major volatile free fatty acids in ewe cheese.<br />
Analytical Chemistry (2002) 74 (20), 5199-5204.<br />
Pinho, O.; Ferreira, I. M. P. L. V. O.*; Ferreira, M. A.<br />
85 um polyacrylate GC-MS<br />
Determination of pyrimethanil and kresoxim-methyl in green groceries by<br />
headspace solid-phase microextraction and gas chromatography-mass<br />
spectrometry.<br />
Journal of Chromatography, A (2002) 975 (2), 355-360.<br />
Navalon, A.; Prieto, A.; Araujo, L.; Vilchez, J. L.*<br />
85 um polyacrylate GC-MS<br />
Aroma compounds in<br />
mango. Distribution of aroma volatile compounds in different parts of mango fruit. GC-MS<br />
Odors from overripe<br />
mango.<br />
Journal of Horticultural Science & Biotechnology (2003) 78 (2), 131-138.<br />
Singh, Zora; Lalel, H. J. D.; Tan, S. C.<br />
Identification of odors from overripe mango that attract vinegar flies,<br />
Drosophila melanogaster. GC-EAD<br />
Journal of Chemical Ecol (2003) 29 (4), 899-909.<br />
Zhu, Junwei; Baker, Thomas C.; Park, Kye-Chung<br />
1083 Methyl jasmonate Prediction correlation of vapor pressure for methyl jasmonate<br />
Journal of Food Engineering (2003) 59 (4), 431-433.<br />
Acevedo, C.; Sanchez, E.; Simpson, R.; Young, M.E.<br />
GC-MS<br />
1085<br />
Volatile compounds<br />
from cilantro<br />
1086 Ethanol in Tequila<br />
1087<br />
1088<br />
Butyltin compounds in<br />
alcoholic beverages<br />
Ethanediol and diethyl<br />
disulfide in wine.<br />
Changes in volatile compounds of small gamma -irradiated fresh cilantro<br />
leaves during cold storage. GC-MS<br />
Journal of Agricultural and Food Chemistry (2002) 50 (26), 7622-7626.<br />
Fan, X. T.; Sokorai, K. J. B.<br />
Tequila authenticity assessment by headspace <strong>SPME</strong>-HRGC-IRMS analysis<br />
of carbon-13/carbon-12 and oxygen-18/oxygen-16 ratios of ethanol. GC-MS<br />
Journal of Agricultural and Food Chemistry (2002) 50 (26), 7520-7523.<br />
Aguilar-Cisneros, B. O.; Lopez, M. G.; Richling, E.; Heckel, F.; Schreier, P. *<br />
Survey on the presence of butyltin compounds in Chinese alcoholic<br />
beverages, determined by using headspace solid-phase microextraction<br />
coupled with gas chromatography-flame photometric detection. GC-MS<br />
Journal of Agricultural and Food Chemistry (2002) 50 (23), 6683-6687.<br />
Liu, J. Y.; Jiang, G. B.*<br />
Synthesis and stable isotope dilution assay of ethanethiol and diethyl<br />
disulfide in wine using solid phase microextraction. Effect of aging on their<br />
levels in wine. GC-MS<br />
Journal of Agricultural and Food Chemistry (2002) 50 (23), 6653-6658.<br />
Majcenovic, A. B.; Schneider, R.; Lepoutre, J. -P.; Lempereur, V.; Baumes,<br />
R. *<br />
Ambient temperature, unless otherwise indicated. 19
1089<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Aroma compounds from<br />
tomatoes.<br />
1090 Volatile fraction of milk<br />
1091 VOC's from eucalyptus.<br />
1105 Volatiles in mango<br />
1106 Methylmercury in fish.<br />
1127<br />
1128<br />
Alcohols, acetates in<br />
sweet wines.<br />
2,4,6-trichloroanisole in<br />
wine.<br />
1129 VOC's in fruit<br />
1130<br />
1131<br />
1132<br />
Differential effects of tomato ( Lycopersicon esculentum Mill) matrix on the<br />
volatility of important aroma compounds.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (3), 722-726.<br />
Bezman, Y.; Mayer, F.; Takeoka, G. R.; Buttery, R. G.; Ben-Oliel, G.;<br />
Rabinowitch, H. D.; Naim, M.<br />
Volatile fraction of milk: comparison between purge and trap and solid<br />
phase microextraction techniques.<br />
Journal of Agricultural and Food Chemistry (2002) 50 (25), 7350-7355.<br />
Contarini, G.; Povolo, M.<br />
<strong>SPME</strong> applied to the study of volatile organic compounds emitted by three<br />
species of Eucalyptus in situ. 65 um PDMS/DVB GC-MS<br />
Journal of Agricultural and Food Chemistry (2002) 50 (25), 7199-7205.<br />
Zini, C. A.; Augusto, F.; Christensen, E.; Caramao, E. B.; Pawliszyn, J. *<br />
Headspace solid-phase microextraction and gas chromatography-mass<br />
spectrometry analysis of free volatile compounds in Mango.<br />
Chromatographia (2002) 55(11-12), 737-741<br />
Shang, C. Q.; Deng, C. H.; Zhang, X. Y.; Chen, Z. F.; Hu, Y. M.<br />
GC-MS<br />
Determination of methylmercury in fish tissues by isotope dilution <strong>SPME</strong>-GC-<br />
ICP-MS<br />
Journal of Analytical Atomic Spectrometry (2003) 18 (5), 431-436.<br />
Mester, Zoltan; Sturgeon, Ralph E.; Yang, Lu<br />
PDMS GC-ICP-MS<br />
Determination of major compounds in sweet wines by headspace solidphase<br />
microextraction and gas chromatography. GC<br />
Journal of Chromatography, A (2003) 991 (1), 13-22.<br />
Rodriguez-Bencomo, J. J.; Conde, J. E.; Garcia-Montelongo, F.; Perez-<br />
Trujillo, J. P.*<br />
Determination of 2,4,6-trichloroanisole in wines by headspace solid-phase<br />
microextraction and gas chromatography-electron-capture detection. GC-ECD<br />
Journal of Chromatography, A (2002) 977 (1), 1-8.<br />
Riu, M.; Mestres, M.; Busto, O. *; Guasch, J.<br />
Analysis of volatile compounds of tapereba ( Spondias mombin L.) and caja<br />
( Spondias mombin L.) by simultaneous distillation and extraction (SDE) and<br />
solid phase microextraction (<strong>SPME</strong>). DVB/CAR/PDMS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (5), 1387-1392.<br />
Ceva-Antunes, P. M. N.; Bizzo, H. R.; Alves, S. M.; Antunes, O. A. C.*<br />
Volatile compounds in<br />
goat's milk cheese. Study of light-induced volatile compounds in goat apostrophe s milk cheese. GC-MS<br />
Volatile compounds in<br />
parmesan cheese.<br />
Volatile from virgin olive<br />
oil.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (5), 1405-1409.<br />
Kim, G. Y.; Lee, J. H.; Min, D. B.*<br />
Optimization of solid phase microextraction analysis for the headspace<br />
volatile compounds of Parmesan cheese.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (5), 1136-1140.<br />
Lee, J. H.; Diono, R.; Kim, G. Y.; Min, D. B.*<br />
Volatiles from leaves, fruits, and virgin oil from Olea europaea cv. Olivastra<br />
Seggianese from Italy.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (5), 1382-1386.<br />
Flamini, G.; Cioni, P. L.; Morelli, I.<br />
Ambient temperature, unless otherwise indicated. 20
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1140 Hexanal from pork.<br />
1145<br />
Aroma compounds from<br />
pepper.<br />
1146 Flavours from milk<br />
1147<br />
1160<br />
1161<br />
1174<br />
1178<br />
1179<br />
1180<br />
1185<br />
1190<br />
Volatile flavor<br />
compounds<br />
Volatile compounds in<br />
bread crumb<br />
2,4,6-trichloroanisole in<br />
wine.<br />
Halogenated fungicides<br />
in wine.<br />
Flavor characteristics in<br />
apple cider.<br />
Trans-resveratrol in<br />
wine.<br />
2-acetyl-1-pyrroline in<br />
bread flowers.<br />
Volatile compounds in<br />
ground coffee.<br />
2-pentylfuran and 2pentenylfuran<br />
in<br />
soybean oil.<br />
Quantitation of hexanal by automated <strong>SPME</strong> for studying dietary influences<br />
on the oxidation of pork. Carboxen/PDMS GC<br />
Journal of Food Composition and Analysis (2003) 16 (2), 179-188.<br />
Grun, Ingolf U.; Berg, Eric P.; Fernando, Lakdas N.<br />
Aroma compound analysis of Piper nigrum and Piper guineense essential<br />
oils from Cameroon using solid-phase microextraction-gas chromatography,<br />
solid-phase microextraction-gas chromatography-mass spectrometry and<br />
olfactometry. GC-MS<br />
Journal of Chromatography, A (2002) 976 (1-2), 265-275.<br />
Jirovetz, L.; Buchbauer, G.; Ngassoum, M. B.; Geissler, M.<br />
Experimental and modelling studies showing the effect of lipid type and level<br />
on flavour release from milk-based liquid emulsions. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (1), 198-195.<br />
Roberts, D. D.; Pollien, P.; Watzke, B.<br />
Headspace solid-phase microextraction method for the study of the volatility<br />
of selected flavour compounds. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (1), 200-205.<br />
Jung, D. M.; Ebeler, S. E.*<br />
Solid-phase microextraction method for headspace analysis of volatile<br />
compounds in bread crumb. Carboxen/PDMS<br />
Cereal Chemistry (2003) 80 (3), 255-259.<br />
Ruiz, J. A.; Guasch, J.; Mestres, M.; Quilez, J.<br />
Accurate determination of 2,4,6-trichloroanisole in wines at low parts per<br />
trillion by solid-phase microextraction followed by GC-ECD. PDMS GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (12), 3509-3514.<br />
Alzaga, Roberto; Bayona, Josep Maria; Marco, M.-Pilar; Ortiz, Laura;<br />
Sanchez-Baeza, Francisco<br />
Coupling solid-phase microextraction and high-performance liquid<br />
chromatography for direct and sensitive determination of halogenated<br />
fungicides in wine. PDMS/DVB HPLC-DAD<br />
Journal of Chromatography A (2003) 995 (1-2), 135-142.<br />
Barrio, R. J.; Goicolea, M. A.; Millan, S.; Rodriguez, E.; Sampedro, M. C.;<br />
Unceta, N.<br />
Effects of processing treatment and sorbate addition on the flavor<br />
characteristics of apple cider.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (7), 1924-1931.<br />
Boylston, T. D.; Wang, H.; Reitmeier, C. A.; Glatz, B. A.<br />
Solid-phase microextraction long dash on-fibre derivatization with<br />
comprehensive two-dimensional gas chromatography analysis of trans -<br />
resveratrol in wine. GC<br />
Chromatographia (2003) 51 (Supp), S349-S353.<br />
Shao, Y.; Marriott, P. *; Hugel, H.<br />
Identification and quantification of the rice aroma compound, 2-acetyl-1pyrroline,<br />
in bread flowers ( Vallaris glabra Ktze). GC-FID<br />
Journal of Agricultural and Food Chemistry (2003) 51 (2), 457-462.<br />
Wongpornchai, S.; Sriseadka, T.; Choonvisase, S.<br />
Analysis of volatile compounds released during the grinding of roasted<br />
coffee beans using solid-phase microextraction. PDMS/DVB GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (7), 1961-1969.<br />
Akiyama, M.; Murakami, K.; Ohtani, N.; Iwatsuki, K.; Sotoyama, K.; Wada,<br />
A.; Tokuno, K.; Iwabuchi, H.; Tanaka, K.<br />
Singlet oxygen oxidation for 2-pentylfuran and 2-pentenylfuran formation in<br />
soybean oil. GC-MS<br />
Journal of Food Science (2003) 68 (4), 1175-1178.<br />
Min, D. B.; Callison, A. L.; Lee, H. O.<br />
Ambient temperature, unless otherwise indicated. 21
1191<br />
1197<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Organo-selenium in<br />
garlic <strong>SPME</strong> for on-line volatile organo-selenium speciation.<br />
Journal of Analytical Atomic Spectrometry (2003), 18 (5), 467-473.<br />
Dietz, C.; Camara, C.; Madrid-Albarran, Y.; Perez-Corona, T.<br />
PDMS ICP-MS<br />
Aroma compounds in<br />
wine.<br />
Aroma compounds of an Italian wine ( Ruche ) by HS-<strong>SPME</strong> analysis<br />
coupled with GC-ion trap MS.<br />
Food Chemistry (2003) 80 (1), 125-133.<br />
Bonino, M.; Schellino, R.; Rizzi, C.; Aigotti, R.; Delfini, C.; Baiocchi, C. *<br />
Various GC-MS<br />
1208 Dairy products. The electronic nose applied to dairy products: A review<br />
Sensors and Actuators, B: Chemical (2003) 94 (1), 1-12.<br />
Ampuero, Silvia; Bosset, J.O.<br />
1215 Flavor analysis in wine.<br />
1216 Volatiles in malt whisky.<br />
1217<br />
1218<br />
1224<br />
Volatile fractions in<br />
butter.<br />
Volatile components in<br />
virgin olive oil.<br />
Flavour analysis of Greek white wine by solid-phase microextractioncapillary<br />
gas chromatography-mass spectrometry.<br />
Journal of Chromatography, A (2003) 985 (1-2), 233-246.<br />
Demyttenaere, J. C. R.; Dagher, C.; Sandra, P.; Kallithraka, S.; Verhe, R.;<br />
de Kimpe, N.<br />
Various GC-MS<br />
Analysis of volatiles of malt whisky by solid-phase microextraction and stir<br />
bar sorptive extraction. Various compared<br />
Journal of Chromatography, A (2003) 985 (1-2), 221-232.<br />
Demyttenaere, J. C. R.; Sanchez Martinez, J. I.; Verhe, R.; Sandra, P.; de<br />
Kimpe, N.<br />
Comparison of solid-phase microextraction and purge-and-trap methods for<br />
the analysis of the volatile fraction of butter.<br />
Journal of Chromatography, A (2003) 985 (1-2), 117-125.<br />
Povolo, M.; Contarini, G. *<br />
Analysis of virgin olive oil volatile compounds by headspace solid-phase<br />
microextraction coupled to gas chromatography with mass spectrometric<br />
and flame ionization detection.<br />
Journal of Chromatography, A (2003) 983 (1-2), 19-33.<br />
Vichi, S.; Castellote, A. I.; Pizzale, L.; Conte, L. S.; Buxaderas, S.; Lopez-<br />
Tamames, E. *<br />
DVB/carboxen/PDMS GC-MS<br />
Peppermint flavor in<br />
tablets. A <strong>SPME</strong>-GC procedure for monitoring peppermint flavour in tablets.<br />
Journal of Pharmaceutical and Biomedical Analysis 2003) 30 (5), 1469-<br />
1477.<br />
Yeung, D. Y. H.; Lee, T.; Grant, G.; Ma, M. H.; Kwong, E. *<br />
GC<br />
1226 Limonene in castor oil<br />
1231<br />
1232<br />
Volatile compounds<br />
from pork loins.<br />
Determination of the disproportionation products of limonene used for the<br />
catalytic hydrogenation of castor oil. GC-MS<br />
Journal of Chromatography, A (2003) 985 (1-2), 313-319.<br />
Schneider, R. C. S.; Baldissarelli, V. Z.; Martinelli, M.; von Holleben, M. L.<br />
A.; Caramao, E. B.*<br />
Effect of Penicillium chryso genum and Debaryomyces hansenii on the<br />
volatile compounds during controlled ripening of pork loins. GC-MS<br />
International Journal of Food Microbiology (2003) 84 (3), 327-338.<br />
Cordoba, Juan J.; Aranda, Emilio; Asensio, Miguel A.; Benito, Maria J.;<br />
Martin, Alberto<br />
Limonene from Release of limonene from polysaccharide matrices: Viscosity and synergy<br />
polysaccharide matrices. effect.<br />
Food Chemistry (2003) 82 (2), 227-234.<br />
Grisel, Michel; Decroix, Bernard; Malhiac, Catherine; Secouard, Sebastien<br />
Ambient temperature, unless otherwise indicated. 22
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1236 Walnut oils Oxidative stability of walnut oils extracted with supercritical carbon dioxide<br />
1237<br />
Volatile carbonyl<br />
compounds from spirits.<br />
Journal of the American Oil Chemists' Society (2003) 80 (6), 575-578.<br />
Crowe, Tammy D.; White, Pamela J.<br />
Evaluation of headspace solid-phase microextraction for the analysis of<br />
volatile carbonyl compounds in spirits and alcoholic beverages. GC-ECD<br />
Journal of Chromatography, A (2003) 984 (1), 89-96.<br />
Wardencki, W.; Sowinski, P.; Curylo, J.<br />
1238 Truffle aroma Truffle aroma analysis by headspace solid phase microextraction. GC-MS<br />
1246 Methanol in aspartame<br />
1248<br />
Journal of Agricultural and Food Chemistry (2003) 50 (22), 6468-6472.<br />
Diaz, P.; Senorans, F. J.; Reglero, G.; Ibanez, E. *<br />
Headspace solid-phase micro-extraction gas chromatography method for<br />
the determination of methanol in aspartame sweeteners.<br />
Food Additives and Contaminants 92003) 20 (6), 519-523.<br />
de Lourdes Cardeal, Z.; Sales, J. A.<br />
85 um polyacrylate. GC-FID<br />
Limonene oxidation<br />
products Determination of limonene oxidation products using <strong>SPME</strong> and GC-MS.<br />
Journal of Chromatographic Science (2003) 41 (1), 31-35.<br />
Marine, S. S.; Clemons, J.<br />
7 um PDMS<br />
1249 Geosmin in red beet. Biosynthetic origin of geosmin in red beets ( Beta vulgaris L.). GC-MS<br />
1250 Geosmin in red beet.<br />
1251 Acidic pesticides in fruit.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (4), 1026-1029.<br />
Lu, G. P.; Edwards, C. G.; Fellman, J. K.; Mattinson, D. S.; Navazio, J.<br />
Quantitative determination of geosmin in red beets ( Beta vulgaris L.) using<br />
headspace solid-phase microextraction. GC<br />
Journal of Agricultural and Food Chemistry (2003) 51 (4), 1021-1025.<br />
Lu, G. P.; Fellman, J. K.; Edwards, C. G.; Mattinson, D. S.; Navazio, J.<br />
Off-line solid-phase microextraction and capillary electrophoresis mass<br />
spectrometry to determine acidic pesticides in fruits. CE-MS<br />
Analytical Chemistry (2003) 75 (3), 452-459.<br />
Rodriguez, R.; Manes, J.; Pico, Y. *<br />
1252<br />
Application of solid-phase microextraction for the determination of pyrethroid<br />
Pyrethroid in vegetables. residues in vegetable samples by GC-MS.<br />
Analytical and Bioanalytical Chemistry (2003) 376 (4), 502-511.<br />
Beltran, J.; Peruga, A.; Pitarch, E.; Lopez, F. J.; Hernandez, F.<br />
GC-MS<br />
1253<br />
Daidzein and genistein<br />
in soybean foods.<br />
1266 Volatiles from honey<br />
1271 Aroma from truffles<br />
Determination of daidzein and genistein in soybean foods by automated online<br />
in-tube solid-phase microextraction coupled to high-performance liquid<br />
chromatography. HPLC<br />
Journal of Chromatography, A (2003) 986 (2), 169-177.<br />
Mitani, K.; Narimatsu, S.; Kataoka, H. *<br />
Analysis of volatile composition of honey by solid phase microextraction and<br />
gas chromatography-mass spectrometry GC-MS<br />
Journal of Separation Science (2002) 26 (9-10), 793-801.<br />
Martinez-Castro, Isabel; Sanz, Jesus; Soria, Ana Cristina<br />
Rebuttal on truffle aroma analysis by headspace solid phase<br />
microextraction (wrong information or wrong interpretation?).<br />
Journal of Agricultural and Food Chemistry (2003) 51 (15), 4484.<br />
Ibanez, Elena; Diaz, Paloma; Reglero, Guillermo; Senorans, F. Javier<br />
Ambient temperature, unless otherwise indicated. 23
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1272 Hexanal from chicken<br />
1275<br />
1282<br />
1283<br />
1284<br />
1285<br />
Phenolic compounds in<br />
smoked herring.<br />
Solid phase microextraction-gas chromatography for quantifying headspace<br />
hexanal above freeze-dried chicken myofibrils. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (15), 4185-4190.<br />
Goodridge, Carolyn F.; Beaudry, Randolph M.; Pestka, James J.; Smith,<br />
Denise M.<br />
Optimization of solid-phase microextraction coupled to gas chromatography<br />
for determination of phenolic compounds in smoked herring. 85 um polyacrylate, 50 C, 55 minutes.<br />
Food Chemistry (2003) 82 (4), 513-519.<br />
Serot, T.; Lafficher, C.<br />
Aromatic components in<br />
bananas. Changes in aromatic components of banana during ripening and air-drying.<br />
Lebensmittel-Wissenschaft & Technologie (2003) 36 (6), 633-642.<br />
Bonazzi, C.; Boudhrioua, N.; Giampaoli, P.<br />
GC-MS<br />
Selenium in roasted<br />
coffee. Studies of selenium-containing volatiles in roasted coffee. GC/ICP-MS<br />
Volatile compounds in<br />
soybeans.<br />
Chiral compounds in<br />
orange juice.<br />
1289 Methylketone in cognac.<br />
1290<br />
1291<br />
Volatile (flavour)<br />
compounds in Raclette<br />
cheese.<br />
Volatiles from tomato<br />
shoots.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (17), 5116-5122.<br />
Caruso, Joseph A.; Bryson, Joshua M.; Meija, Juris; Montes-Bayon, Maria;<br />
Vonderheide, Anne P.<br />
Identification of volatile compounds in soybean at various developmental<br />
stages using solid phase microextraction. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (17), 4873-4876.<br />
Boue, Stephen M.; Carter-Wientjes, Carol H.; Cleveland, Thomas E.; Shih,<br />
Betty Y.<br />
Enantiomeric distribution of chiral compounds in orange juices according to<br />
their geographical origins. GC-MS<br />
Journal of Food Protection (2003) 66 (8), 1448-1454.<br />
Herraiz, M.; Blanch, G. P.; Caja, M. M.; Ruiz del Castillo, M. L.<br />
Analysis of microvolatiles in brandy: Relationship between methylketone<br />
concentration and Cognac age.<br />
Journal of the Science of Food and Agriculture (2003) 83 (11), 1143-1149.<br />
Watts, Vivian A.; Butzke, Christian E.<br />
Distribution of the volatile (flavour) compounds in Raclette cheese produced<br />
with different staphylococci in the smear.<br />
Mitteilungen aus Lebensmitteluntersuchung und Hygiene (2003) 94 (3), 192-<br />
211.<br />
Bosset, Jacques Olivier; Imhof, Miroslava; Place, Raymond B.; Teuber,<br />
Michael<br />
Volatiles emitted from in vitro grown tomato shoots during abiotic and biotic<br />
stress.<br />
Plant Cell Tissue and Organ Culture (2003) 75 (1), 73-78.<br />
Debergh, Pierre C.; Maes, Katrien<br />
1292 Ethylene in mango fruit. The role of ethylene in mango fruit aroma volatiles biosynthesis. GC-MS<br />
1295<br />
Postharvest fungicides<br />
in fruits.<br />
Journal of Horticultural Science & Biotechnology (2003) 78 (4), 485-496.<br />
Singh, Zora; Lalel, H. J. D.; Tan, S. C.<br />
Solid-phase microextraction liquid chromatography-tandem mass<br />
spectrometry to determine postharvest fungicides in fruits.<br />
Analytical Chemistry (2003) 75 (14), 3606-3615.<br />
Blasco, C.; Font, G.; Manes, J.; Pico, Y. *<br />
50 um carbowax/template resin LC-MS-MS<br />
Ambient temperature, unless otherwise indicated. 24
1296<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Volatile components in<br />
cheese. Volatile components of Grana Parmigiano-Reggiano type hard cheese.<br />
Food Chemistry (2003) 83 (1), 55-61.<br />
Bellesia, F.; Pinetti, A. *; Pagnoni, U. M.; Rinaldi, R.; Zucchi, C.; Caglioti, L.;<br />
Palyi, G.<br />
GC-MS<br />
1306 PCBs in milk.<br />
1307<br />
1315<br />
Application of Strategically Designed Sample Composition to the Rapid<br />
Analytical Screening of Milk Samples for Polychlorinated Biphenyls<br />
Journal of AOAC International (2003) 86 (4), 846-855.<br />
Carro, Antonia M.; Cela, Rafael; Llompart, Maria; Martinez, Elena; Pazos,<br />
Manuel<br />
Polyphenols in<br />
grapes/wine. Mass spectrometry in grape and wine chemistry. Part I: Polyphenols<br />
Mass Spectrometry Reviews (2003) 22 (4), 218-250.<br />
Flamini, Riccardo<br />
LC-MS<br />
Ochratoxin A,<br />
cyclopiasonic acid in<br />
cornflakes.<br />
1319 Iberian ham<br />
1323<br />
Organochlorine<br />
pesticides in Chinese<br />
teas.<br />
Simultaneous determination of ochratoxin A and cyclopiazonic,<br />
mycophenolic, and tenuazonic acids in cornflakes by solid-phase<br />
microextraction coupled to high-performance liquid chromatography. PDMS/DVB LC-UV/DAD<br />
Journal of Agricultural and Food Chemistry (2003) 51 (18), 5232-5237.<br />
Palmisano, Francesco; Aresta, Antonella; Cioffi, Nicola; Zambonin, Carlo<br />
G.<br />
Challenges and prospects of Iberian pork products: Verification of the<br />
sensorial and nutritional quality of Iberian ham.<br />
Alimentaria (2003) 40 (345), 45-58.<br />
Ventanas, S.; Ventanas, J.; Petron, M. J.; Jurado, A.; Carrapiso, A.<br />
Application of polyphenylmethylsiloxane coated fiber for solid-phase<br />
microextraction combined with microwave-assisted extraction for the<br />
determination of organochlorine pesticides in Chinese teas polyphenylmethylsiloxane GC-ECD<br />
Journal of Chromatography, A (2003) 1015 (1-2), 11-21.<br />
Cai, Lingshuang; Dong, Li; Wu, Caiying; Xing, Jun<br />
1325 Pesticides in foods Analyses of pesticides and their metabolites in foods and drinks. LC-MS<br />
Trends in Analytical Chemistry (2002) 20(11), 649-661<br />
Ahmed, Farid E.<br />
1330<br />
1338<br />
Oil aroma compounds in<br />
Ocimem species.<br />
Volatile compounds in<br />
ewe cheese.<br />
1339 Methylmercury in fish.<br />
1347<br />
Volatile compounds in<br />
coffee<br />
Chemotaxonomical analysis of the essential oil aroma compounds of four<br />
different Ocimum species from southern India. GC-MS<br />
European Food Research and Technology (2003) 217 (2), 120-124.<br />
Jirovetz, Leopold; Buchbauer, Gerhard; Kaniampady, Molikutty M.; Shafi,<br />
Mohamed<br />
Solid-phase microextraction of volatile compounds in left dbl quote<br />
Terrincho right dbl quote ewe cheese: comparison of different fibres. CAR-PDMS GC-MS<br />
Journal of Chromatography, A (2003) 1011 (1-2), 1-9.<br />
Pinho, O.; Peres, C.; Ferreira, I. M. P. L. V. O.*<br />
Application of isotope dilution to the determination of methylmercury in fish<br />
tissue by solid-phase microextraction gas chromatography-mass<br />
spectrometry.<br />
Journal of Chromatography, A (2003) 1011 (1-2), 135-142.<br />
Yang, L.; Colombini, V.; Maxwell, P.; Mester, Z.; Sturgeon, R. E.<br />
PDMS GC-MS<br />
Comparison of two <strong>SPME</strong> fibres for differentiation of coffee by analysis of<br />
volatile compounds.<br />
Chromatographia (2001) 54(9-10), 647-652.<br />
Costa Freitas, A. M.; Parreira, C.; Vilas-Boas, L.<br />
Carbowax/DVB, PDMS GC-MS<br />
Ambient temperature, unless otherwise indicated. 25
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1348 Fungicides in wine<br />
1356 Volatiles in wines<br />
1362<br />
1367<br />
1368<br />
Cyclopiazonic acid in<br />
cheese.<br />
Off flavours in orange<br />
juice.<br />
Flavour compounds in<br />
wine.<br />
Solid-phase microextraction-gas chromatographic-mass spectrometric<br />
method for the determination of the fungicides cyprodinil and fludioxonil in<br />
white wines.<br />
Journal of Chromatography A (2002) 942(1-2), 41-52<br />
Simal Gandara, J.; Cancho Grande, B.; Rial Otero, R.; Yague Ruiz, C.<br />
Classification of Nebbiolo-based wines from Piedmont (Italy) by means of<br />
solid-phase microextraction-gas chromatography-mass spectrometry of<br />
volatile compounds.<br />
Journal of Chromatography A (2002) 943(1), 123-137<br />
Aceto, Maurizio; Marengo, Emilio; Maurino, Valter<br />
50/30um DVB/Carboxen PDMS GC-MS<br />
GC-MS<br />
Determination of cyclopiazonic acid in cheese samples using solid-phase<br />
microextraction with high performance liquid chromatography.<br />
Food Chemistry (2001) 75(2), 249-254.<br />
Zambonin, C. G.; Monaci, L.; Aresta, A. *<br />
Carbowax/TPR HPLC<br />
2-Methyl-3-furanthiol and methional are possible off-flavours in stored<br />
orange juice: aroma-similarity, NIF/SNIF GC-Olfactometry, and GC<br />
analyses. GC-O<br />
Journal of Agricultural and Food Chemistry (2001) 49(11), 5425-5432.<br />
Bezman, Y.; Rouseff, R. L.; Naim, M. *<br />
Headspace solid phase microextraction ( <strong>SPME</strong> ) analysis of flavour<br />
compounds in wines. Effect of the matrix volatile composition in the relative<br />
response factors in a wine model. GC<br />
Journal of Agricultural and Food Chemistry (2001) 49(11), 5142-5151.<br />
Rocha, S.; Ramalheira, V.; Barros, A.; Delgadillo, I.; Coimbra, M. A.<br />
1370 Volatiles in solid foods. New device for direct extraction of volatiles in solid samples using <strong>SPME</strong> GC-MS<br />
1372 Coffee aroma<br />
Journal of Agricultural and Food Chemistry (2001) 49(11), 5115-5121.<br />
Ruiz, J.; Ventanas, J.; Cava, R.<br />
The use of an electronic aroma-sensing device to assess coffee<br />
differentiation. Comparison with <strong>SPME</strong> gas chromatography-mass<br />
spectrometry aroma patterns. 100 um PDMS GC-MS<br />
Journal of Food Composition and Analysis (2001) 14(5), 513-522.<br />
Costa Freitas, A. M.; Parreira, C.; Vilas-Boas, L.<br />
1377 PAH in rice. Dynamics analysis for the distribution of PAH in rice.<br />
Journal of Health Science (2001) 47(5), 446-451.<br />
Liu, X. X.; Korenaga, T.<br />
GC-MS<br />
1378 Fatty acids in milk.<br />
1382<br />
1387<br />
Volatile flavour<br />
compounds.<br />
Cucumber flavour<br />
compounds<br />
Quantitative determination of short-chain free fatty acids in milk using solidphase<br />
microextraction and gas chromatography. Polyacrylate GC<br />
Journal of Agricultural and Food Chemistry (2001) 49(10), 4603-4608.<br />
Gonzalez-Cordova, A. F.; Vallejo-Cordoba, B. *<br />
Comparison of simultaneous distillation extraction and solid-phase<br />
microextraction for the determination of volatile flavour components. GC-MS<br />
Journal of Chromatography, A (2001) 930(1-2), 1-7.<br />
Cai, J. B.; Liu, B. Z.; Su, Q. D.*<br />
Solid-phase microextraction ( <strong>SPME</strong> ) technique for measurement of<br />
generation of fresh cucumber flavour compounds.<br />
Journal of Agricultural and Food Chemistry (2001) 49(9), 4203-4207.<br />
Palma-Harris, C.; McFeeters, R. F.*; Fleming, H. P.<br />
PDMS GC<br />
Ambient temperature, unless otherwise indicated. 26
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1389 Scotch whiskies<br />
1390 Volatiles in potato tubers<br />
1399 PCBs in food.<br />
1401 Aroma from wine must.<br />
1402<br />
Headspace congeners of blended scotch whiskies of different product<br />
categories from <strong>SPME</strong> analysis.<br />
Journal of the Institute of Brewing (2001) 107(5), 315-332.<br />
Lee, K. -Y. M.; Paterson, A. *; Birkmyre, L.; Piggott, J. R<br />
PDMS, polyacrylate GC-FID<br />
Volatile fingerprinting (<strong>SPME</strong>-GC-FID) to detect and discriminate diseases<br />
of potato tubers.<br />
Plant Disease (2002) 86(2), 131-137<br />
Kushalappa, A. C.; Chen, C. R.; Lee, B.; Lui, L. H.<br />
Fast extraction, clean-up and detection methods for the rapid analysis and<br />
screening of seven indicator PCBs in food matrices.<br />
Trends in Analytical Chemistry (2002) 21(1), 39-52<br />
Anklam, E.; von Holst, Christoph; Bjorklund, E.<br />
Optimization of solid phase microextraction analysis of aroma compounds in<br />
a Portuguese muscatel wine must. 85 um polyacrylate<br />
Journal of Microcolumn Separations (2001) 13(6), 236-242.<br />
Relva, A. M.; Freire, Luis M. T. Vaz; Freitas, A. M. Costa<br />
GC-FID<br />
Lipid degeneration<br />
products in oils Monitoring of lipid degradation products by solid-phase microextraction 100 um PDMS GC-FID<br />
Journal of Microcolumn Separations (2001) 13(6), 215-220.<br />
1403 Volatiles in bananas<br />
1414 Volatiles from fruit.<br />
1415 Off-flavors from milk<br />
1418<br />
1420<br />
1421<br />
1422<br />
Volatiles in soybean and<br />
corn oils<br />
Volatile compounds in<br />
wine.<br />
Pesticides in<br />
strawberries.<br />
Volatile compounds<br />
from oranges.<br />
Doleschall, Fruzsina; Kemeny, Zsolt; Kovari, Katalin; Recseg, Katalin<br />
Optimization of solid-phase microextraction analysis for studying change of<br />
headspace flavor compounds of banana during ripening.<br />
Journal of Agricultural and Food Chemistry (2002) 50(4), 653-657<br />
Liu, Tai-Ti; Yang, Tsung-Shi<br />
Solid phase microextraction and gas chromatography-olfactometry analysis<br />
of internal volatiles from intact citrus fruits and their aroma activity GC-O<br />
Abstracts of Papers American Chemical Society (2001) 222(1-2), AGFD142.<br />
Rouseff, Russell L.; Lin, Jianming<br />
<strong>SPME</strong> GC-MS-based testing for monitoring off-flavor development in<br />
processed milk.<br />
Abstracts of Papers American Chemical Society (2001) 222(1-2), AGFD27.<br />
Marsili, Ray T.<br />
Solid phase microextraction of volatile soybean oil and corn oil compounds.<br />
Journal of Food Science (2002) 67(1), 71-76<br />
Min, D. B.; Lee, J. H.; Steenson, D. F.<br />
Various fibers compared GC-MS<br />
Polydimethylsiloxane solid-phase microextraction-gas chromatography<br />
method for the analysis of volatile compounds in wines. Its application to the<br />
characterization of varietal wines. PDMS GC<br />
Journal of Chromatography A (2001) 922(1-2), 267-275.<br />
Polo, M. C.; Martin-Alvarez, P. J.; Pozo-Bayon, M. A.; Pueyo, E.<br />
Determination of organochlorine pesticides and chlorobenzenes in<br />
strawberries by using accelerated solvent extraction combined with sorptive<br />
enrichment and gas chromatography/mass spectrometry.<br />
Journal of AOAC International (2001) 84(4), 1194-1201.<br />
Wennrich, Luise; Breuste, Juergen; Koeller, Gabor; Popp, Peter<br />
Analysis of volatile compounds released from embryogenic cultures and<br />
somatic embryos of sweet oranges by head space <strong>SPME</strong> GC-MS<br />
Plant Cell Tissue and Organ Culture (2001) 66(1), 31-34.<br />
Del Bosco, S. Fatta; Alonzo, G.; Saiano, F.; Tusa, N.<br />
Ambient temperature, unless otherwise indicated. 27
1423<br />
1424<br />
1426<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Volatiles from turkey<br />
breast.<br />
Volatiles of gourd<br />
flowers.<br />
The effects of temperature and pressure on the performance of<br />
Carboxen/PDMS fibres during solid phase microextraction ( <strong>SPME</strong> ) of<br />
headspace volatiles from cooked and raw turkey breast. Carboxen/PDMS<br />
Flavour and Fragrance Journal (2001) 16(4), 294-302.<br />
Cronin, D. A.; Brunton, N. P.; Monahan, F. J.<br />
Headspace-<strong>SPME</strong> analysis of volatiles of the ridge gourd (Luffa acutangula)<br />
and bitter gourd (Momordica charantia) flowers. GC-MS<br />
Flavour and Fragrance Journal (2001) 16(4), 289-293.<br />
Grun, I. U.; Fernando, L. N.<br />
Aroma of strawberry<br />
drink. Changes in the aroma of a strawberry drink during storage.<br />
Journal of Agricultural and Food Chemistry (2001) 49(7), 3244-3252.<br />
Siegmund, Barbara; Derler, Karin; Pfannhauser, Werner<br />
1440 Truffle aroma Truffle aroma characterization by headspace solid-phase microextraction<br />
Journal of Chromatography A (2003) 1017(1-2), 207-214<br />
Diaz, P.; Ibanez, E.; Reglero, G.; Senorans, F.J<br />
1441 Propionic acid in feed<br />
1442<br />
1448<br />
Volatiles in Italian<br />
Vinegars<br />
Garlic flavor<br />
components<br />
1451 Volatiles in Olive Oil<br />
1452 Volatiles in Olive Oil<br />
1453<br />
Free fatty acids in ewe<br />
cheese<br />
1454 Aroma volatiles in beef<br />
Analysis of total propionic acid in feed using headspace solid-phase<br />
microextraction and gas chromatography<br />
Journal of Chromatography A (2003) 1017(1-2), 161-166<br />
Ibanez, Carlos<br />
Quantitative analysis of 2-furfural and 5-methylfurfural in different Italian<br />
vinegars by headspace solid-phase microextraction coupled to gas<br />
chromatography-mass spectrometry using isotope dilution<br />
Journal of Chromatography A (2003) 1017(1-2), 141-149<br />
Calabrese, Roberto; Davoli, Enrico; Giordano, Lucia; Rotilio, Domenic<br />
Comparative study of extraction techniques for determination of garlic<br />
flavour components by gas chromatography-mass spectrometry.<br />
Analytical and Bioanalytical Chemistry (2003) 377(4), 749-756<br />
Lee, S. N.; Kim, N. S.; Lee, D. S.<br />
Solid-phase microextraction in the analysis of virgin olive oil volatile fraction:<br />
Characterization of virgin olive oils from two distinct geographical areas of<br />
northern Italy.<br />
Journal of Agricultural and Food Chemistry (2003) 51(22), 6572-6577<br />
Lopez-Tamames, Elvira; Buxaderas, Susana; Conte, Lanfranco S.; Pizzale,<br />
Lorena; Vichi, Stefania<br />
Solid-phase microextraction in the analysis of virgin olive oil volatile fraction:<br />
Modifications induced by oxidation and suitable markers of oxidative status.<br />
Journal of Agricultural and Food Chemistry (2003) 51(22), 6564-6571<br />
Lopez-Tamames, Elvira; Buxaderas, Susana; Conte, Lanfranco S.; Pizzale,<br />
Lorena; Vichi, Stefania<br />
Quantification of short-chain free fatty acids in "Terrincho" ewe cheese:<br />
Intravarietal comparison.<br />
Journal of Dairy Science (2003) 86(10), 3102-3109<br />
Ferreira, I. M. P. L. V. O.; Ferreira, M. A.; Pinho, O.<br />
Evaluation of two commercial solid-phase microextraction fibres for the<br />
analysis of target aroma compounds in cooked beef meat<br />
Talanta (2003) 61(4), 529-537<br />
Istasse, Louis; Machiels, David<br />
Ambient temperature, unless otherwise indicated. 28<br />
50/30um DVB/Carboxen PDMS<br />
headspace 13.6 mins.<br />
GC-MS<br />
85um Polyacrylate headspace GC-FID, GC-MS<br />
50/30um DVB/Carboxen PDMS<br />
headspace<br />
50/30um DVB/Carboxen PDMS,<br />
headspace<br />
85um Polyacrylate 65 degrees<br />
C, 45 mins. Headspace<br />
50/30um DVB/Carboxen PDMS,<br />
Carboxen PDMS, headspace<br />
GC-MS<br />
GC-MS<br />
GC-FID, GC-MS<br />
GC-FID, GC-MS<br />
GC-FID<br />
GC-MS
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1457 Volatiles in wine Volatile compounds by <strong>SPME</strong>-GC as age markers of sparkling wines. GC-MS<br />
1463<br />
Long chain alcohols<br />
from<br />
food-borne bacteria<br />
1465 Thymol in honey<br />
1471 VOCs in Riseling wine<br />
1472<br />
Volatiles in dry-cured<br />
ham<br />
1473 Carvone in dill seeds<br />
1474<br />
1481<br />
1482<br />
1496<br />
1499<br />
Volatiles from soybean<br />
leaves<br />
2-pentyl pyridine binding<br />
to soy proteins<br />
Aroma compounds in<br />
Vinegar<br />
Mycophenolic acid in<br />
cheese<br />
Characterization of<br />
flavors in coffee<br />
American Journal of Enology and Viticulture (2003) 54(3), 158-162<br />
Buxaderas, Susana; Francioli, Sonia; Lopez-Tamames, Elvira; Riu-<br />
Aumatell, Montserrat; Torrens, Jordi<br />
Comparison of long-chain alcohols and other volatile compounds emitted<br />
from food-borne and related Gram positive and Gram negative bacteria.<br />
Journal of Basic Microbiology (2002) 42(6), 373-380<br />
Hamilton-Kemp, T. R.; Archbold, D. D.; Collins, R. W.; Elgaali, Hesham;<br />
Newman, M. C.; Yu, Keshun<br />
Application of solid phase microextraction to evaluate traces of thymol in<br />
honey.<br />
Apidologie (2002) 33(6), 545-552<br />
Conte, Lanfranco S.; Bogdanov, Stefan; Gracco, Luisa; Piasenzotto, Lara<br />
Analysis of Riesling wine volatiles by a novel headspace solid-phase<br />
microextraction gas chromatography method.<br />
American Journal of Enology and Viticulture (2002) 53(3), 251A<br />
Wang, X. D.; Reynolds, A. G.; Mattinson, D. S.; Fellman, J. K.; Edwards, C.<br />
G.; Bohlscheid, J. C<br />
Optimisation of solid phase microextraction ( <strong>SPME</strong> ) for the analysis of<br />
volatile compounds in dry-cured ham.<br />
Journal of the Science of Food and Agriculture (2002) 82(14), 1703-1709<br />
Flores, Monica; Gianelli, Maria Pia; Toldra, Fidel<br />
Estimation of the main dill seeds odorant carvone by solid-phase<br />
microextraction and gas chromatography.<br />
Nahrung (2002) 46(5), 357-359<br />
Zawirska-Wojtasiak, Renata; Wasowicz, Erwin<br />
Clean recovery and HRGC-MS/HRGC-FTIR identification of volatiles from<br />
soybean (Glycine max).<br />
Italian Journal of Food Science (2002) 12(2), 175-182<br />
Damiani, P.; Bin, F.; Castellini, M.; Cossignani, L.<br />
Binding properties of 2-pentyl pyridine to soy protein as measured by solid<br />
phase microextraction<br />
Journal of Food Science (2002) 67(1), 142-145<br />
Boatright, W. L.; Johnson, L. A.; Reuber, M.; Zhou, A.<br />
Headspace solid-phase microextraction analysis of aroma compounds in<br />
vinegar. Validation study.<br />
Journal of Chromatography A (2002) 967(2), 261-267<br />
Castro Mejias, Remedios; Garcia Barroso, Carmelo; Garcia Moreno, Ma. de<br />
Valme; Garcia Rowe, Fernando; Natera Marin, Ramon<br />
Solid-phase microextraction-high performance liquid chromatography and<br />
diode array detection for the determination of mycophenolic acid in cheese.<br />
Food Chemistry (2002) 78(2), 249-254<br />
Zambonin, C. G.; Aresta, A.; Monaci, L.<br />
Characterization of flavor compounds during grinding of roasted coffee<br />
beans.<br />
Abstracts of Papers American Chemical Society (2002) 224(1-2), AGFD 68<br />
Sotoyama, Kazuyoshi; Ohtani, Noboru; Murakami, Kazuya; Iwatsuki, Keiji;<br />
Akiyama, Masayuki; Iwabuchi, Hisakatsu; Tanaka, Kiyofumi; Tokuno,<br />
Katsuya; Wada, Akira<br />
Ambient temperature, unless otherwise indicated. 29<br />
50/30um DVB/Carboxen PDMS<br />
85um Polyacrylate, 100um<br />
PDMS<br />
75um Carboxen/PDMS<br />
GC-MS<br />
GC-FID<br />
GC-MS<br />
50um Carbowax TPR HPLC-PAD
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1500 Volatiles in orange juice Variables affecting <strong>SPME</strong> headspace analysis of orange juice volatiles<br />
1516 Voltiles in pineapple<br />
1517<br />
Aroma compounds in<br />
wine<br />
1520 Volatiles in smoked fish<br />
1521<br />
1525<br />
1526<br />
Aroma volatiles in<br />
cantaloupe<br />
Fatty acid ethyl ethers in<br />
rum<br />
Volatiles in alcoholic<br />
fermentation of grapes<br />
1534 Butyltin in wines<br />
1535 Ethylphenol in wine<br />
Abstracts of Papers American Chemical Society (2002) 224(1-2), AGFD 49<br />
Goodrich, Renee M.; Bryan, Charles R.; Braddock, Robert J.<br />
Volatile compounds in hydrolyzed pineapple (Ananas comosus L. Merryl)<br />
perola variety and clarified pasteurized juices obtained by solid-phase<br />
microextraction<br />
Alimentaria (2002) 39(333), 129-132<br />
de Carvalho, Lucia Maria Jaeger; da Silva, Carlos Alberto Bento; de Oliveira<br />
Godoy, Ronoel Luiz; Abadio, Fernanda Dias Bartolomeu; Figueira, Jose<br />
Americo A.<br />
Headspace solid-phase microextraction gas chromatography/mass<br />
spectrometry in the analysis of the aroma constituents of 'Cannonau of<br />
Jerzu' wine.<br />
Rapid Communications in Mass Spectrometry (2002) 16(11), 1086-1091<br />
Podda, Gianni; Begala, Michela; Corda, Luciana; Fedrigo, Maria Anna;<br />
Traldi, Pietro<br />
Volatile components of raw and smoked black bream (Brama raii) and<br />
rainbow trout (Oncorhynchus mykiss) studied by means of solid phase<br />
microextraction and gas chromatography/mass spectrometry.<br />
Journal of the Science of Food and Agriculture (2002) 82(9), 945-952<br />
Guillen, Maria D.; Errecalde, Maria C.<br />
Effect of storage on some volatile aroma compounds in fresh-cut<br />
cantaloupe melon.<br />
Journal of Agricultural and Food Chemistry (2002) 50(14), 4043-4047<br />
Lamikanra, Olusola; Richard, Olga A.<br />
Headspace solid-phase microextraction of higher fatty acid ethyl esters in<br />
white rum aroma.<br />
Journal of Chromatography A (2002) 954(1-2), 51-57<br />
Guasch, J.; Busto, O.; Marti, M. P.; Mestres, M.; Perez, J.; Pino, J.<br />
Investigation of volatiles evolution during the alcoholic fermentation of grape<br />
must using free and immobilized cells with the help of solid phase<br />
microextraction ( <strong>SPME</strong> ) headspace sampling.<br />
Journal of Agricultural and Food Chemistry (2002) 50(13), 3840-3848<br />
Komaitis, Michael; Kanellaki, Maria; Koutinas, Athanasios; Mallouchos,<br />
Athanasios<br />
Journal of Agricultural and Food Chemistry (2002) 50(13), 3810-3817<br />
Ducruet, Violette; Feigenbaum, Alexandre; Gratadoux, Jean Jacques;<br />
Jouquand, Celine; Lecanu, Laurent<br />
Headspace solid-phase micro-extraction gas chromatography-mass<br />
detection method for the determination of butyltin compounds in wines.<br />
Analytica Chimica Acta (2002) 458(1), 231-239<br />
Azenha, Manuel; Vasconcelos, Maria Teresa<br />
Determination of ethylphenol compounds in wine by headspace solid-phase<br />
microextraction in conjunction with gas chromatography and flame<br />
ionization detection.<br />
Analytica Chimica Acta (2002) 458(1), 111-117<br />
Nepveu, Francoise; Gastine, Valerie; Monje, Marie-Carmen; Privat,<br />
Christelle<br />
Ambient temperature, unless otherwise indicated. 30<br />
65um PDMS DVB GC-MS<br />
GC-MS<br />
headspace GC-MS<br />
headspace GC-MS<br />
85um Polyacrylate, NaCl added,<br />
40mins.<br />
GC-FID
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1537 Ethyl carbamate in wine<br />
1539<br />
1541<br />
1542<br />
1546<br />
1555<br />
3-alkyl-2methoxypyrazines<br />
in<br />
wine<br />
Butyltin in Portuguese<br />
wines<br />
Volatiles in Spanish<br />
honey<br />
Short-chain fatty acids in<br />
cane and beet sugars<br />
Sulfur compounds in<br />
wines<br />
Determination of ethyl carbamate in wine by solid-phase microextraction<br />
and gas chromatography/mass spectrometry.<br />
American Journal of Enology and Viticulture (2002) 53(1), 60-63<br />
Zoecklein, B. W.; Whiton, R. S.<br />
Headspace solid-phase microextraction analysis of 3-alkyl-2methoxypyrazines<br />
in wines.<br />
Journal of Chromatography A (2002) 953(1-2), 1-6<br />
Guasch, J.; Busto, O.; Marti, M. P.; Mestres, M.; Sala, C.<br />
65um Carbowax DVB, 30mins,<br />
headspace<br />
GC-MS<br />
Butyltin compounds in Portuguese wines. GC-MS<br />
Journal of Agricultural and Food Chemistry (2002) 50(9), 2713-2716<br />
Azenha, Manuel; Vasconcelos, Maria Teresa<br />
Analysis of volatiles from Spanish honeys by solid-phase microextraction<br />
and gas chromatography-mass spectrometry.<br />
Journal of Agricultural and Food Chemistry (2002) 50(9), 2633-2637<br />
Tadeo, Jose L.; Calvo, Rosa M.; Perez, Rosa A.; Sanchez-Brunete,<br />
Consuelo<br />
Semiquantitative determination of short-chain fatty acids in cane and beet<br />
sugars.<br />
Journal of Chromatographic Science (2002) 40(3), 127-132<br />
Grimm, Casey C.; Batista, Rebecca B.; Godshall, Mary An<br />
Application of headspace solid-phase microextraction to the determination<br />
of sulphur compounds with low volatility in wines.<br />
Journal of Chromatography A (2002) 945(1-2), 211-219<br />
Mestres, M.; Busto, O.; Guasch, J.<br />
75um Carboxen PDMS, 70<br />
degrees C, 30mins.<br />
GC-MS<br />
50/30um DVB/Carboxen PDMS GC-MS<br />
1196 Analysis of chemical constituents of capsicol by GC-MS.<br />
Fenxi Ceshi Xuebao (2003) 22 (1), 67-70.<br />
Zhu, X. L.; Liu, B. Z.; Zong, R. W.; Yun, G. O.<br />
GC-MS<br />
1211<br />
1243 Nicotine in cigarettes<br />
1274<br />
1314<br />
Identification of 2-bromo-3,4,5,6-tetrachloroaniline and its quantification in<br />
the color additives D&C Red Nos. 27 and 28 (phloxine B) using solid-phase<br />
microextraction and gas chromatography-mass spectrometry GC-MS<br />
Journal of Chromatography A (2003) 1005 (1-2), 143-153.<br />
Andrzejewski, Denis; Weisz, Adrian<br />
Determination of nicotine and other minor alkaloids in international<br />
cigarettes by solid-phase microextraction and gas chromatography/mass<br />
spectrometry. GC-MS<br />
Analytical Chemistry (2003) 74 (19), 4878-4884.<br />
Wu, W. J.; Ashley, D. L.; Watson, C. H.*<br />
Determination of the volatile constituents of Chinese Coriandrum sativum L.<br />
by gas chromatography-mass spectrometry with solid-phase<br />
microextraction. 100 um PDMS, 250 C, 3 minutes GC-MS<br />
Chromatographia (2003) 57 (5-6), 357-361.<br />
Deng, C. H.; Song, G. X.; Hu, Y. M.*; Zhang, X. M.<br />
Aroma dilution method using GC injector split ratio for volatile compounds<br />
extracted by headspace solid phase microextraction. GC-O<br />
Food Chemistry (2003) 83 (1), 151-158.<br />
Lee, Hyong Joo; Kim, Kyoung Heon; Kim, Tae Hwan; Kim, Young-Suk; Lee,<br />
Sang Mi; Oh, Sangsuk<br />
Ambient temperature, unless otherwise indicated. 31
1409<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Disulfide flavors from<br />
proteins<br />
Flavor-protein binding: Disulfide interchange reactions between ovalbumin<br />
and volatile disulfides.<br />
Journal of Agricultural and Food Chemistry (2001), 49(9), 4333-4336.<br />
Mottram, Donald S.; Adams, Rachel L.; Brown, Helen M.; Parker, Jane K.<br />
1559 Esters Analysis of esters in wines Various GC<br />
in wine J.Chromatogr. A (2002) 963(1-2), 213-223<br />
Rodriguez-Bencomo, J.; Conde, J.; Rodriguez-Delgado, M.A.;<br />
Garcia-Montelongo, F.; Perez-Trujillo, J.P.<br />
1560 Dimethyl Contribution of dimethyl sulfide to the aroma of Syrah and headspace GC-MS<br />
sulfide in Grenache Noir wines and estimation of its potential in grapes<br />
wine of these varieties<br />
J Agr Food Chem, 52, #23, 7084-7093<br />
Segurel, M.; Razungles, A.; Riou, C; Salles, M; Baumes, R<br />
1561 Volaitles in Hydrolysis of glycosidically bound volatiles from apple leaves headspace GC-MS<br />
apple leaves (cv. Anna) by Aspergillus niger beta-glucosidase affects<br />
the behavior of codling moth (Cydia pomonella L.)<br />
J Agril and Food Chem, 52, #26, 6212-6216<br />
Wei, Shu; Reuveny, Haim; Bravdo, Ben-Ami; Shoseyov, Oded<br />
1562 Volaitles in Monitoring seasonal variation in apple fruit volatile in situ GC<br />
apples emissions in situ using <strong>SPME</strong><br />
Phytochemical Analysis, 14, No 4, 232-240<br />
Hern, Alan; Dorn, Silvia<br />
1563 Esters in Ester variability in apple varieties as determined PDMS fiber GC-MS<br />
apples by <strong>SPME</strong>-GC-MS Headspace<br />
J Agril and Food Chem, 52, #26, 8086-8093<br />
Young, J. C.; Chu, C. L. G.; Lu, X. W.; Zhu, H. H.<br />
1564 Volaitles in Potential of <strong>SPME</strong>-GC and chemometrics to detect Headspace GC-FID<br />
stawberry vs adulteration of soft fruit purees. GC-MS<br />
a puree J Agr Food Chem, 52, #3, 421-427<br />
Reid, L.; Oapostrophe Donnell, C.; Downey, G.<br />
1565 Solvents in Development of headspace <strong>SPME</strong>-GC method for the various fibers GC-FID<br />
edible oils, determination of solvent residues in edible oils headspace GC-ECD<br />
pharmaceutics and pharmaceuticals<br />
J. Chromatogr. A, 1071, #1-2, 119-124<br />
Michulec, M.; Wardencki, W.<br />
1566 Volatiles in Identification of volatile compounds in structured lipid of headspace GC-MS<br />
safflower oil safflower oil using electronic nose and <strong>SPME</strong>-GC-MS<br />
Agr Chem&Biotechnogy, 46, #4, 152-155<br />
Shin, Jung-Ah; Lee, Jong-Ho; Lee, Ki-Teak<br />
1567 Volatiles in Comparative study on volatile analysis of extra virgin 100µm PDMS GC-MS-TOF<br />
olive oils olive oil by dynamic headspace and <strong>SPME</strong> 65µm PDMS-DVB<br />
Food Chemistry, 90, #1-2, 69-79 headspace<br />
Kanavouras, A.; Kiritsakis, A.; Hernandez, R. J.<br />
1568 Volatiles in Application of <strong>SPME</strong> in the analysis of volatile oils. 100µm PDMS GC<br />
olive oils compounds in virgin olive oils. 15 min @ 45°C<br />
J Chromatogr A, 1028, #2, 321-324 headspace<br />
Jimenez, A.; Beltran, G.; Aguilera, M. P.<br />
1569 Volatiles in Analysis of virgin olive oil volatiles by a novel electronic headspace SAW<br />
olive oils nose based on a miniaturized SAW sensor array GC<br />
coupled with <strong>SPME</strong> enhanced headspace enrichment<br />
J AgriFood Chem, 52, #25, 7475-7479<br />
Garcia-Gonzalez, D.; Barie, N; Rapp, M; Aparicio, R<br />
1570 Terpenes A chemical investigation by headspace <strong>SPME</strong> and headspace GC-MS<br />
in olibanum GC-MS of volatile and semi-volatile terpenes in<br />
various olibanum samples<br />
Phytochemistry (Amsterdam), 66, #12,1499-1514<br />
Hamm, S; Bleton, J; Connan, J; Tchapla, A<br />
Ambient temperature, unless otherwise indicated. 32
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1571 Terpenes & Characterization of three Agave species by GC headspace GC, GC-MS<br />
fatty acids in and <strong>SPME</strong>-GC-MS steam distillation<br />
plants J Chromatogr A, 1027, #1-2, 131-136<br />
Pena-Alvarez, A.; Diaz, L.; Medina, A.; Labastida, C.;<br />
Capella, S.; Vera,L..<br />
1572 Volatiles Analysis of volatile secondary metabolites headspace GC-MS<br />
in fruit from Colombian Xylopia ronatica (Lamarck) by<br />
different extraction and headspace methods and GC<br />
J Chromatogr A, 1025, #1, 105-113<br />
Stashenko, E.; Jaramillo, B.; Martinez, J<br />
1573 Volatiles Comparison of volatile compounds of corn oil and headspace GC-MS<br />
in corn oil modified corn oil by electronic nose and <strong>SPME</strong>-GC-MS<br />
Agri Chem and Biotechnology, 47, #3, 153-156<br />
Vu, Phuong-Lan; Shin, Jung-Ah; Lee, Ki-Teak<br />
1574 Review Application of the <strong>SPME</strong> and in food analysis 100µm PDMS GC-MS<br />
Polish J Food and Nutrition Sci, 13, #4, 355-361 85µm polyacrylate<br />
Ligor, Magdalena; Wojcik, Jan; Buszewski, Boguslaw headspace<br />
1575 Volatiles from Steam distillation-<strong>SPME</strong> for the detection of headspace GC-MS<br />
essential oils Ephedra sinica in herbal preparations<br />
J Chromatogr A, 1025, #1, 51-56<br />
Tellez, M.; Khan, I.; Schaneberg, B.; Crockett, S.;<br />
Rimando, A.; Kobaisy,M<br />
1576 Volatiles from Testing of microencapsulated flavours by electronic headspace GC-MS<br />
essential oils nose and <strong>SPME</strong>-GC<br />
Food Chem, 92, #1, 45-54<br />
Baranauskiene, R; Venskutonis, P, Galdikas,A.,<br />
Senuliene, Daiva; Setkus, Arunas<br />
1577 Organo- <strong>SPME</strong>-GC-MS a fast and simple screening method headspace GC-MS<br />
phosphorus for the assessment of organophosphorus<br />
pesticides pesticides residues in wine and fruit juices.<br />
in wine/juice Food Chemistry, 86,#2, 269-274<br />
Zamabonin, C; Quinto, M; deVietro, N; Palmisano, F<br />
1578 Volatiles Metabolites of lesser grain borer in grains. headspace GC-MS<br />
from wheat J Agrl Food Chem, 52, #4, 898-908 0-240min @ 20°-40°C<br />
Seitz, L. M.; Ram, M. S.<br />
1579 Volatiles of Headspace <strong>SPME</strong>-GC-Mass spectrometric headspace GC-MS<br />
essential oils analysis of the essential oils of two traditional<br />
Chinese medicines, Angelica pubescens and<br />
Angelica sinensis.<br />
Chromatographia, 59, #5-6, 343-349<br />
Song, G. X.; Deng, C. H.; Wu, D.; Hu, Y. M.*<br />
1580 Organo- <strong>SPME</strong>-multicapillary GC coupled to different headspace ICP-MS, MIP-AES,<br />
selenium in detection systems and applied to volatile AFS<br />
yeast organo-selenium speciation in yeast.<br />
J Analytical Atomic Spectrometry, 19, #2, 260-266<br />
Dietz, C.; Sanz Landaluze, J.; Ximenez-Embun, P.; Madrid-Albarran, Y.;<br />
Camara, C.<br />
1581 Organo- Volatile organoselenium monitoring in production and gastric headspace MIP-AES<br />
selenium in digestion processes of selenized yeast by <strong>SPME</strong>-multicapillary<br />
yeast GC coupled microwave-induced plasma atomic<br />
emission spectrometry<br />
Appl. Organomet. Chem., 18, #12, 606-613<br />
Camara, C.; Dietz, C.; Madrid, Y.; Sanz Landaluze, J.<br />
1582 Sulfur compd Production of volatile organic sulfur compounds (VOSCs) headspace GC-MS<br />
in yeast by basidiomycetous yeasts<br />
FEMS Yeast Research, 5, #4-5, 379-385<br />
Buzzini, Pietro; Romano, Sergio; Turchetti, Benedetta;<br />
Vaughan, Ann; Pagnoni, Ugo Maria; Davoli, Paolo<br />
Ambient temperature, unless otherwise indicated. 33
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1583 Methyl Direct coupling of <strong>SPME</strong> and quartz tube-atomic 65µm PDMS-DVB GC-MS, AA<br />
mercury in absortpion spectrometry for selective and sensitive bare silica fiber<br />
seafood determination of methylmercury in seafood: An headspace<br />
assessment of chloride & hydride generation chloride derivative.<br />
J Analytical Atomic Spectrometry, 19, #2, 220-254<br />
Fragueiro, S; Lavilla, I; Bendicho, C.<br />
1584 Flavor volatiles Volatile profile, sensory attributes, and quality of headspace GC-MS<br />
in cantaloupe freshcut cantaloupe is maturity-at-cutting dependent<br />
Hortscience, 38, #5, 833<br />
Beaulieu, John C.; Bett, Karen L.<br />
1585 Fatty acids Fatty acid composition of tomato affects fruit and GC-MS<br />
in tomatos leaf biosynthesis of C6 aldehydes and alcohols.<br />
Hortscience, 38, #5, 833<br />
Canoles, M; Li, C; Howe, Gg; Beaudry, R<br />
1586 C6 aldehydes Rapid determination of C6-aldehydes in tomato plant emission 65µm PDMS-DVB GC-MS<br />
in tomatos by GC-MS and <strong>SPME</strong> with on-fiber derivatization 5 min @ 25ºC<br />
J Sep Science, 28, #2, 172-176 PFBHA derivatives<br />
Deng, Chunhui; Li, Ning; Zhu, Weimin; Qian, Ji; headspace<br />
Yang, Xiaofeng; Zhang, Xiangmin<br />
1587 Sulfur aroma The measurement of sulfur-containing aroma compounds in headspace GC-FPD<br />
from Beer samples from production-scale brewery operations<br />
JAm Society of Brewing Chemists, 63, #3, 129-134<br />
Miracle, R. E.; Ebeler, S. E.; Bamforth, C. W.<br />
1588 Aldehydes in Determination of C3-C10 aliphatic aldehydes using PFBHA PFBHA derivatives GC<br />
beer derivatization and <strong>SPME</strong>.Application to the analysis of beer 20min @ 20°C<br />
Chemia Analityczna, 49, #6, 869-880 headspace<br />
Jelen, H.; Dabrowska, A.; Klensporf, D.; Nawrocki, J.; Wasowicz,E.<br />
1589 Volatiles from Volatile compounds of Aspergillus strains with different headspace @ GC<br />
wheat grain abilities to produce ochratoxin A 20° to 27°C<br />
J Agri Food Chem, 53, #5, 1678-1683<br />
Jelen, Henryk H.; Grabarkiewicz-Szczesna, Jadwiga<br />
1590 Volatiles from Comparison of methodologies for the identification of aroma headspace GC-MS<br />
strawberries compounds in strawberry<br />
Turk. J. Agric. For., 29, #5, 383-390<br />
Bar, E; Kafkas, E; Kafkas, S; Koch-Dean, M.Larkov, O; Lavid, N<br />
Lewinsohn, Efraim; Ravid, Uzi; Schwab, Wilfried<br />
1591 Volatiles from Analysis of strawberry volatiles using comprehensive two- headspace GC-GC<br />
strawberries dimensional gas chromatography with headspace <strong>SPME</strong><br />
J Chromatogr, B:817, # 1, 97-107<br />
Williams, A.; Ryan, D.; Guasca, A.; Marriott, P.; Pang, E.<br />
1592 Off-odour in Main compounds responsible for off-odour of strawberries headspace GC-olfactometry<br />
strawberries infected by Phytophthora cactorum<br />
Letters in Applied Microbiology, 40, #4, 255-259<br />
Jelen, H. ; Krawczyk, J.; Larsen, T. ; Jarosz, A.; Golebniak, B.<br />
1593 Volatiles from Volatile compounds as markers for coliforms 15 min headspace GC<br />
strawberries inoculated on strawberry fruit.<br />
Hortscience, 38, #5, 831<br />
Yu, K; Elgaali, H; Hamilton-Kemp, T; Newman, M;<br />
Collins, R; Archbold,D.<br />
1594 Sulfur volatiles <strong>SPME</strong>-GC-MS analysis of garlic oil obtained various fibers GC-MS<br />
from garlic by hydrodistillation headspace<br />
J. Chromatogr. A, 1036, #1, 91-93<br />
Calvo-Gomez, O.; Lopez, M.; Morales-Lopez, J.<br />
1595 Garlic flavor Comparative study of extraction techniques for 50/30µm DVB/CAR GC-MS<br />
components determination of garlic flavor components by GC-MS headspace<br />
Anal. Bioanal. Chem., 377, #4, 749-756<br />
Kim, Nam-Sun; Lee, Dong-Sun; Lee, Sun-Neo<br />
Ambient temperature, unless otherwise indicated. 34
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1596 Volatiles from <strong>SPME</strong> and GC-MS of volatile compounds from headspace GC-MS<br />
avocado avocado puree after microwave processing 30sec microwave<br />
J. Chromatogr. A, 1036, #1, 87-90 pH 5.5<br />
Dorantes, A.; Guzman, G; Lopez, M.<br />
1597 Oxidative Synergistic Effect of BSA on Antioxidant Activities in GC+G742<br />
byproducts in Model Food Emulsions<br />
sunflower oil J Am Oil Chem Soc, 81, #3, 275-280<br />
Almajano, M. Pilar; Gordon, Michael H.<br />
1598 Oxidative Study of both sunflower oil and its headspace throughout the headspace @ 70°C GC-MS<br />
byproducts in oxidation process. Occurrence in the headsapce of<br />
sunflower oil toxic oxygenated aldehydes<br />
J Agr& Food Chemistry, 53, #4, 1093-1101<br />
Guillen, Maria D.; Cabo, Nerea; Ibargoitia, Maria L.; Ruiz, A<br />
1599 Permethrin <strong>SPME</strong> of permethrin residues from cucumber using 75µm Carboxen/PDMS GC<br />
on cucumbers a silica-bonded phase-coated stainless steel fibre. 100µm PDMS<br />
Food Additives & Contaminants, 21, #3. 222-231 headspace<br />
Noroozian, E.; Kazemipour, M.; Tehrani, M.; Mahmoudian, M.<br />
1600 Volatiles in Application of headspace <strong>SPME</strong> and comprehensive headspace GC-GC<br />
herbal mixture two-dimensional gas chromatography (GC x GC) for the<br />
chemical profiling of volatile oils in complex herbal mixtures<br />
J. Sep. Sci., 27, #5-6, 451-458<br />
Di, Xin; Huie, C.; Marriott, P.; Shellie, R.<br />
1601 Solvents in Determination of residual solvents content headspace GC-FID<br />
plant oil (hexane residue) in plant oil by headspace <strong>SPME</strong><br />
Fenxi Shiyanshi, 23, #4, 70-72<br />
Lan, F.; Xie, L. Q.; Yang, Z.; Pan, K. Y.; Wu, C.<br />
1602 Fungus Early detection of fungal growth in bakery products by use headspace GC/MS<br />
backery of an electronic nose based on mass spectrometry<br />
products J Agr Food Chem, 52, #20, 6068-6074<br />
Vinaixa, M.; Marin, S.; Brezmes, J.; Llobet, E.;<br />
Vilanova, X.; Correig, X.; Ramos, A.; Sanchis, V.<br />
1603 Odors from Investigation of the interaction of active packaging headspace GC-MS<br />
packaging material with food aroma compounds<br />
Sens Actuators, B Chem, 106, #1, 83-87<br />
Pastorelli, S.; Simoneau, C.; Strathmann, S.<br />
1604 N-nitrosamines A method for the determination of volatile N -nitrosamines 65µm PDMS-DVB GC-TEA<br />
in sausage in food by HS-<strong>SPME</strong>-GC-TEA. 85µm polyacrylate<br />
Food Chemistry, 91, #1, 173-179 headspace<br />
Andrade, R.; Reyes, F. G. R.; Rath, S.<br />
1605 Flavor <strong>SPME</strong>-GC-MS analysis of volatile organic compounds in GC-MS<br />
Volatiles honey from Basilicata. Evidence for the presence of<br />
from honey pollutants from anthropogenic activities<br />
Intl J Food Sci & Tech; 39, #10, 1079-1086<br />
Bentivenga, G; D'Auria, M; Fedeli, P; Mauriello, G;<br />
Racioppi, R<br />
1606 Monoterpenes <strong>SPME</strong>-GC-MS determination of monoterpenes in honey 100µm PDMS GC-MS<br />
in honey J. Sep. Sci.,27, #17-18, 1540-1544 15min @ 20°C<br />
Pena, Rosa M.; Barciela, Julia; Herrero, C; Garcia-Martin, S agitated, 25% salt<br />
1607 Aroma Evaluation of four isolation techniques for honey headspace GC<br />
Volatiles aroma compounds.<br />
from honey J Sci of Food and Agriculture, 85, #1,91-97<br />
Alissandrakis, E.; Tarantilis, P. A.; Harizanis, P.; Polissiou, M.<br />
1608 Aroma Characterization of Spanish unifloral honeys by <strong>SPME</strong>-GC-MS headspace GC-MS<br />
Volatiles J. Sep. Sci., 28, #9-10, 1093-1100<br />
from honey de la Fuente, Esther; Martinez-Castro, Isabel; Sanz, Jesus<br />
Ambient temperature, unless otherwise indicated. 35
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1609 Aroma Estimation of the honeydew ratio in honey samples from headspace GC-MS<br />
Volatiles their physicochemical data and from their volatile composition<br />
from honey obtained by <strong>SPME</strong> and GC-M<br />
J Sci of Food and Agriculture, 85, #817-824<br />
Soria,A; Gonzalez, M; deLorenzo, C; MartinezCastro,I; Sanz, J<br />
1610 Flavors in Profiling flavor compounds of potato crisps during storage 65µm PDMS-DVB GC-MS<br />
potato crisps using <strong>SPME</strong> 20min @ 70°C<br />
J Chromatogra, A, 1064, #2, 239-245 headspace<br />
Sanches-Silva, A; Lopez-Hernandez, J; Paseiro-Losada, P<br />
1611 Rancidity in Fast detection of rancidity in potato crisps using e-noses headspace GC-MS<br />
potato crisps based on mass spectrometry or gas sensors<br />
Sens Actuators, B Chem, 106, #1, 67-75<br />
Badia, C.; Brezmes, J.; Correig, X.; Duran, C.; Llobet, E.;<br />
Vergara, A.; Vilanova, X.; Vinaixa, M.<br />
1612 Rancidity in A fuzzy ARTMAP- and PLS-based MS e-nose for the headspace GC-MS<br />
potato crisps qualitative and quantitative assessment of rancidity of crisps<br />
Sens Actuators, B Chem, 106, #2, 677-686<br />
Brezmes, J.; Correig, X.; Llobet, E.; Vilanova, X.; Vinaixa, M.<br />
1613 PAHs in Headspace <strong>SPME</strong> as a tool to estimate the contamination 85µm polacrylate GC-MS<br />
smoked of smoked cheeses by polycyclic aromatic hydrocarbons 60min @ 70°C<br />
cheese J of Dairy Science, 88, #1, 13-20 headspace<br />
Guillen, M. D.; Sopelana, P.<br />
1614 Terpenes Application of artificial neural network on mono-and headspace GC-MS<br />
from cheese sequiterpenes compounds determined by headspace<br />
<strong>SPME</strong>-GC-MS for the Piedmont ricotta cheese traceability<br />
J Chromatogra, A, 1071, #1-2, 247-253<br />
Giuseppe, Z; Manuela, G; Marta, Bo; Vincenzo, G<br />
1615 Review of Calibration of gas chromatography inlet splitting for GC GC<br />
technique olfactometry dilution analysis<br />
Flavour Fragrance J., 19, #6, 518-521<br />
Acree, T.; Deibler, K.; Lavin, E.; Llesca, F.<br />
1616 Volatile free Volatile free fatty acids as ripening indicators for Serra headspace GC<br />
fatty acids in da Estrela cheese<br />
cheese J Dairy Sci, 87, #12, 4064-4072<br />
Tavaria, F. K.; Ferreira, A. C. Silva; Malcata, F.<br />
1617 Aroma of Composition and aroma compounds of Ragusano headspace GC<br />
cheese cheese: Native pasture and total mixed rations.<br />
J Dairy Sci, 87, #4, 816-830<br />
Carpino, S.; Mallia, S.; LaTerra, S.; Melilli, C.; Licitra, G.;<br />
Acree, T.; Barbano, D.; VanSoest, P.<br />
1618 Aroma of Comparison of purge and trap and <strong>SPME</strong> techniques for headspace GC<br />
cheese studying the volatile aroma compounds of three European<br />
PDO hard cheeses<br />
International Dairy Journal, 15, #6-9, 741-758<br />
Mallia, S.; Fernandez-Garcia, E.; Bosset, J. Olivier<br />
1619 Aroma of Characterization of "Provola dei Nebrodi", a typical Sicilian headspace GC-MS<br />
cheese cheese, by volatiles analysis using <strong>SPME</strong>-GC/MS<br />
International Dairy Journal, 15, #6-9, 585-593<br />
Ziino, M.; Condurso, C.; Romeo, V.; Giuffrida, D.; Verzera, A.<br />
1620 Aroma of <strong>SPME</strong> and GC-MS for rapid characterisation of headspace GC-MS<br />
cheese semi-hard cheeses<br />
Anal. Bioanal. Chem., 380, #7-8, 930-936<br />
Condurso, C.; Romeo, V.; Verzera, A.; Zappala, M.; Ziino, M.<br />
1621 Sulfur compd Volatile sulfur compounds in Cheddar cheese determined 75µm Carboxen GC-PFPD<br />
in cheese by headspace <strong>SPME</strong> and GC-pulsed FPD headspace<br />
J Chromatogr A, 1066, #1-2, 149-157<br />
Burbank, Helen M.; Qian, Michael C.<br />
Ambient temperature, unless otherwise indicated. 36
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1622 Aroma of Analysis of volatile aroma compounds of fresh chilli headspace GC-MS<br />
chilli (Capsicum annuum) during stages of maturity using <strong>SPME</strong> 30min @ 60°C<br />
J Food Composition & Analysis, 18, #5, 427-437<br />
Mazida, M. M.; Salleh, M. M.; Osman, H.<br />
1623 Volaitles from <strong>SPME</strong> Ccmbined with GC and olfactometry-MS 75µm Carboxen GC-MS<br />
cheese for characterization of cheese aroma compounds. headspace GC-olfactometry<br />
Lebensmittel-Wissenschaft & Technologie, 37, #2, 139-154 9-16hr extract<br />
Frank, D.; Owen, C.; Patterson, J.<br />
1624 Flavors from Improved determination of flavour compounds in headspace GC-GC-TOFMS<br />
butter butter by <strong>SPME</strong> & comprehensive two-dimensional GC GC-FID<br />
J. Chromatogr. A 1086, #1-2, 99-106<br />
Adahchour, M., Brinkman, U.; Verdel, R.,<br />
Vreuls, R.; Wiewel, J.<br />
1625 Aroma Effect of thickeners and sweeteners on the release headspace GC<br />
compounds of blended aroma compounds in fat-free stirred<br />
in yoghurt yoghurt during shear conditions<br />
Intl Dairy Journal, 14, #9, 783-789<br />
Decourcelle, N.; Lubbers, S.; Vallet, N.; Rondeau, P.;<br />
Guichard, E.<br />
1626 Volaitles from Optimization of <strong>SPME</strong> for the analysis of volatile headspace GC<br />
milk compounds in milk.<br />
Journal of Dairy Science, 86, Supplement 1, 294<br />
Clarkson, H.; Duncan, S.; O'Keefe, S.<br />
1627 Volaitles from Volatile compounds and chemical changes in headspace @ 5°C GC-MS<br />
milk ultrapasteurized milk packaged in polyethylene<br />
terephthalate containers<br />
J of Food Science, 70. #6, C407-C412<br />
Solano-Lopez, C.; Ji, T.; Alvarez, V.<br />
1628 Phthalate Development of a headspace <strong>SPME</strong> method combined 60min @ 90°C. GC-MS<br />
esters in w/ GC-MS for the determination of phthalate esters headspace<br />
cow milk in cow milk NaCl added<br />
Analytica Chimica Acta, 538, #1-2, 41-48<br />
Feng, Yong-Lai; Zhu, Jiping; Sensenstein, R.<br />
1629 Aromatic <strong>SPME</strong> coupled with HPLC for the analysis 50µm CW-TPR LC-diode array<br />
amines of heterocyclic aromatic amines. methanolic NaOH<br />
in food J Chromatogr A, 1030, #1-2, 87-93<br />
Cardenes, L.; Ayala, J.; Afonso, A.; Gonzalez, V.<br />
1630 Isothiocynates <strong>SPME</strong>-GC-MS analysis of horseradish (Armoracia rusticana) GC-MS<br />
in horseradish Italian J Food Sci, 16, #4,487-490<br />
D'Auria, M.; Mauriello, G.; Racioppi, R.<br />
1631 Volatiles from Volatile compounds in different cultivars of Apium headspace GC-MS<br />
cultivars graveolens L.<br />
Italian J Food Sci, 16, #4, 477-482<br />
Tirillini, B.; Pellegrino, R.; Pagiotti, R.;<br />
Pocceschi, N.; Menghini, L.<br />
1632 Volatiles in Tequila volatile characterization and ethyl ester determination 100µm PDMS GC-MS<br />
tequila by <strong>SPME</strong>-GC-MS analysis 60min @ 40°C<br />
J Agri and Food Chem, 52, #18, 5567-5571 immersed<br />
Vallejo-Cordoba, B.; Gonzalez-Cordova, A.; .<br />
del Carmen Estrada-Montoya, M.<br />
1633 Volatile aroma Rapid determination of volatile compounds in grapes by 65µm DVB-PDMS GC<br />
compounds HS-<strong>SPME</strong> coupled with GC-MS 20 min @ 70°C<br />
in grapes Talanta, 66, #5, 1152-1157 headspace<br />
Sanchez-Palomo, E.; Diaz-Maroto, A. ; Perez-Coello, A.<br />
Ambient temperature, unless otherwise indicated. 37
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1634 Fermentation Stable isotope dilution analysis of wine fermentation products headspace GC-MS<br />
products of by HS-<strong>SPME</strong>-GC salt addition<br />
wines Anal. Bioanal. Chem., 381, #4, 937-947<br />
Capone, D.; Herderich, M.; Neuwohner, C.; Pardon, K.;<br />
Pollnitz, A.; Sefton, M; Skouroumounis, G.;<br />
Smyth, H.; Siebert, T.<br />
1635 Monoter- Comparison of ultrasound-assisted extraction and direct immersion GC-MS<br />
penoids in immersion <strong>SPME</strong> method for the analysis of monoterpenoids<br />
wine in wine<br />
Talanta, 67, #1, 129-135<br />
Barciela, J.; Garcia-Martin, S.; Herrero, C.; Pena, R.<br />
1636 Volatiles in Analytical method for determination of some 50/30µm DVB/CAR GC<br />
white wine aroma compounds on white wines by <strong>SPME</strong>-GC Headspace<br />
J of Food Sci, 68, #9, 2817-2820<br />
Ferreira, A.; Guedes de Pinho, P.<br />
1637 Methoxy- Analysis of methoxypyrazines in wine using Headspace GC-GC-NPD<br />
pyrazine headspace <strong>SPME</strong> with isotope dilution and GC-GC-TOFMS<br />
in wine comprehensive two dimensional GC<br />
J. Sep. Sci., 28, #9-10, 1075-1082<br />
Allen, M.; Marriott, P.; Ryan, D.; Smith, J.; Watkins, P.<br />
1638 Volatiles in GC profile of volatiles in cheese induced by headspace GC<br />
cheese different fat globule surface coatings.<br />
J of Dairy Science, 86, Supplement 1, 43<br />
Everett, D. ; Crownshaw, J.; Ginestet, A.;<br />
Leus, M.; Dufour, J..<br />
1639 Flavors in Flavor stability of skim and whole milk powder. GC<br />
milk products J of Dairy Science, 86, Supplement 1, 40<br />
Whetstine, M.; Drake, M..; Karagul-Yuceer, Y.; Avsar, Y.<br />
1640 Methyl GC-MS with <strong>SPME</strong> method for determination of 100µm PDMS GC-MS<br />
salicylate in methyl salicylate and other volatile compounds in Headspace<br />
tomato leaves leaves of Lycopersicon esculentum.<br />
Anal. Bioanal. Chem., 378, #2, 518-522<br />
Deng, C; Zhang, X; Zhu, W; Qian, J<br />
1641 Flavors in <strong>SPME</strong> for flavor analysis in Harari Khat 100µm PDMS GC-MS<br />
Harari Khat (Catha edulis) stimulant. 30min @ 20°C<br />
stimulant J. Zhejiang Univ: Sci, 5, #4, 428-431<br />
Abdulsalam, Al-Flahi; Yin, Xue-Feng; Zou, Jian-Kai<br />
1642 Nonvolatiles Interactions between volatile and nonvolatile coffee headspace GC<br />
from brewed components. Screening of nonvolatile components<br />
coffee J Agr Food Chem., 53, #11, 4417-4425<br />
Charles-Bernard, M.; Kraehenbuehl, K.;<br />
Rytz, A.; Roberts, D.<br />
1643 Volatiles in Comprehensive multidimensional GC for the headspace GC-GC<br />
coffee beans characterization of roasted coffee beans<br />
J. Sep. Sci., 27, #5-6, 442-450<br />
Casilli, A., Costa, R.; Dugo, G., Dugo, P.; Festa, S.;<br />
Mondello, L.; Tranchida, P.<br />
1644 Volatiles in Analysis of roasted coffee bean volatiles by using headspace GC-GC-TOF-MS<br />
coffee beans comprehensive two-dimensional GC-TOF-MS<br />
J. Chromatogr. A, 1054, #1-2, 57-65<br />
Casilli, A.; Marriott, P.; Mondello, L.; Ryan, D.;<br />
Shellie, R.; Tranchida, P.<br />
1645 Volatiles in Reliable characterization of coffee bean aroma headspace GC-MS<br />
coffee beans profiles by automated headspace <strong>SPME</strong>-GC-MS with<br />
the support of a dual-filter mass a dual-filter spectra library<br />
J. Sep. Sci., 28, #9-10, 1101-1109<br />
Casilli, A, Costa, R; Dugo, G, Dugo, P; Festa, S;<br />
Mondello, L; Tranchida, P.<br />
Ambient temperature, unless otherwise indicated. 38
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1646 Furan in Determination of furan levels in coffee using headspace GC-MS<br />
coffee automated <strong>SPME</strong>-GC-MS<br />
JAOAC Intl, 88, #2,574-576<br />
Ho, I-Pin; Yoo, Seong-Jae; Tefera, Sebhat<br />
1647 Volatiles in <strong>SPME</strong>-GC-MS and multivariate analysis headspace GC-MS<br />
roasted for the characterization of roasted coffees<br />
coffee Talanta, 66, #1, 261-265<br />
Zambonin, C.; Balest, L.; De Benedetto, G.; Palmisano, F.<br />
1648 Essential oils A direct liquid, non-equilibrium <strong>SPME</strong> application 100µm PDMS fiber GC-MS<br />
from leaves for analysing chemical variation of single peltate immersed<br />
trichomes on leaves of Salvia officinalis.<br />
Phytochemical Analysis, 15, #3, 198-203<br />
Grassi, P.; Novak, J.; Steinlesberger, H.; Franz, C.<br />
1649 Aroma from GC-olfactometric characterization of aroma active Headspace GC-FID<br />
Tarhana compounds in sun-dried and vacuum-dried tarhana<br />
European Food Res &Tech, 218, #6, 573-578<br />
Goemen, D; Gurbuz, O; Rouseff, R; Smoot, J.; Dagdelen, A<br />
1650 Aroma from Lactic acid fermentation of Brassica rapa: headspace GC-FID<br />
fermentation chemical and microbial evaluation of a typical<br />
process Italian product (brovada)<br />
European Food Res &Tech, 218, #5, 469-473<br />
Maifreni, Michela; Marino, Marilena; Conte, L<br />
1651 2,4,6-trichloro Relationship between sensory and instrumental Headspace GC-ECD<br />
anisole in analysis of 2,4,6-trichloroanisole in wine and cork<br />
wine/cork stoppers<br />
Anal. Chim. Acta, 513, #1, 291-297<br />
Antico, E.; Garcia Regueiro, J.A.; Guerrero, L.; Insa, S.; .<br />
Juanola, R.; Salvado, V.; Subira, D<br />
1652 Chlloro- Assay of stability, free and total concentration of headspace GC<br />
hexidine in chlorhexidine in saliva by solid phasemicroextraction<br />
saliva J Pharma and Biomed Analysis, 37, #5, 1015-1024<br />
Musteata, Florin Marcel; Pawliszyn, Janusz<br />
1653 Pyrazines Improving headspace-<strong>SPME</strong> of 3-isobutyl-2- headspace GC-MS<br />
in wine methoxypyrazine by experimental design with regard saturated salt<br />
to stable isotope dilution GC-MS analysis of wine<br />
Anal. Chim. Acta, 513, #1, 223-227<br />
Lucchese, Y.; Nepveu, F.; Prouteau, C.; Renard, R.;<br />
Schneider, R.;Vaca-Garcia, C.<br />
1654 Terpenes in Optimization of <strong>SPME</strong> methods for GC-MS 100µm PDMS GC-MS<br />
wine determination of terpenes in wine 15min @ 20°C<br />
J Sci of Food and Agr, 85, #7, 1227-1234 immersed<br />
Pena, R.; B, Julia; Herrero, C; Garcia-Martin, S. 25% NaCl<br />
1655 Volatiles in Characterization of the aroma profile of Madeira wine headspace GC-MS<br />
red wine by sorptive extraction techniques<br />
Anal. Chim. Acta, 546, #1, 11-21<br />
Alves, R.F.; Nascimento, A.M.D.; Nogueira, J.M.F.<br />
1656 Flavors from Varietal flavour compounds of four grape varieties dynamic headspace GC-MS<br />
Madeira wine producing Madeira wines<br />
Analytica Chimica Acta, 513, #1, 203-207<br />
Camara, J.; Herbert, P.; Marques, J.; Alves, M.<br />
1657 Volatiles in Elimination of matrix effects for headspace <strong>SPME</strong> of 65µm PDMS-DVB, GC<br />
red wine important volatile compounds in red wine using a novel coating 85µm polyacrylate<br />
Anal. Chim. Acta, 540, #2, 341-353 100µm PDMS<br />
Liu, Mingming; Tian, Yun; Zeng, Zhaorui headspace<br />
1658 Sulfur Sensitive quantification of sulfur compounds in wine by headspace GC-FPD<br />
compounds headspace solid-phase microextraction technique<br />
in wine J. Chromatogr. A, 1080, #-2, 177-185<br />
Fang, Yu; Qian, Michael C.<br />
Ambient temperature, unless otherwise indicated. 39
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1659 Fungicides Screening of grapes and wine for azoxystrobin, headspace GC-MS<br />
on grapes kresoxim-methyl and trifloxystrobin fungicides<br />
by HPLC with diode array detection<br />
Food Additives and Contaminants, 22, #6, 549-566<br />
Abreu, S.; Correia, M.; Herbert, P.;<br />
Santos, L.; Alves, A.<br />
1660 Tribromo- Determination of 2,4,6-tribromoaniline in the color additives headspace GC-MS<br />
aniline in D&C Red Nos. 21 and 22 (Eosin Y) using <strong>SPME</strong>-GC-MS<br />
color additives J. Chromatogr. A, 1057, #1--2, 185-191<br />
Andrzejewski, Denis; Rasooly, Irit R.; Weisz, Adrian<br />
1661 Ochratoxin A Determination of Ochratoxin A in foods: State-of-the-art LC-FLD<br />
in foods and analytical challenges<br />
Anal. Bioanal. Chem., 378, #1, 96-103<br />
Monaci, Linda; Palmisano, Francesco<br />
1662 Volatiles in Comparative analysis of volatile compounds of headspace GC-MS<br />
sherry wine "fino" sherry wine by rotatory and continuous liquidliquid<br />
extraction and <strong>SPME</strong> in conjunction w/GC-MS<br />
Anal. Chim. Acta, 513, #1, 141-150<br />
Barroso, C.G.; Benitez, P.; Castro, R.; Natera, R.<br />
1663 Volatiles in Application of a wavelet-based algorithm on headspace GC-MS<br />
vinegars headspace <strong>SPME</strong>-GC signals for the classification<br />
of balsamic vinegars.<br />
Chemometrics and Intelligent Lab Systems, 71, #2, 129-140<br />
Cocchi, M.; Durante, C.; Foca, G.; Manzini, D.;.<br />
Marchetti, A.; Ulrici, A.<br />
1664 Flavors from Flavour release and rheology behaviour of headspace @ 10°C GC<br />
yogurt strawberry fat-free stirred yogurt during storage. stirred<br />
J Agri and Food Chemistry, 52, #10, 3077-3082<br />
Lubbers, S.; Decourcelle, N.; Vallet, N.; Guichard, E.<br />
1665 Aroma of Solid-phase aroma concentrate extraction (SPACE): headspace GC-MS<br />
coffee beans a new headspace technique for more sensitive<br />
analysis of volatiles<br />
Flavour & Fragrance Journal, 19, #3, 183-187<br />
Ishikawa, M.; Ito, O.; Ishizaki, S.;<br />
Kurobayashi, Y.; Fujita, A.<br />
1666 Volatiles from Comparison of volatile compounds formed by 40°C headspace GC-MS<br />
cod liver oil autoxidation and photosensitized oxidation of cod ferrous chloride added GC-FID<br />
liver oil in emulsion systems foil lined sample vial<br />
Fisheries Science (Tokyo), 71, #3, 639-647<br />
Pan, Xiang-Qing; Ushio, Hideki; Ohshima, Toshiak<br />
1667 2,4,6- Detection of 2,4,6-trichloroanisole in microorganism- 50/30µm DVB/CAR GC-MS<br />
trichloroanisole free irradiated raisins by <strong>SPME</strong>-GC-MS headspace<br />
in raisins J Stored Products Res, 40, #4, 451-459<br />
Aung, L. H.; Jenner, J. F.<br />
1668 Anisoles in Simultaneous separation, clean-up and analysis headspace GC-MS-MS<br />
wines of musty odorous compounds in wines by on-line<br />
coupling of a pervaporation unit to GC- tandem MS<br />
Anal. Chim. Acta, 516, #1-2, 165-170<br />
Garcia-Barrera, T.; Gomez-Ariza, J.L.; Lorenzo, F.<br />
1669 Anisoles in Optimisation of a two-dimensional on-line coupling headspace GC-ECD-ICP-MS<br />
wines for the determination of anisoles in wineusing ECD<br />
and ICP-MS after <strong>SPME</strong>-GC separation<br />
Jof AnalyAtomic Spectrometry, 20, #9, 883-888<br />
Gomez-Ariza, J. L.; Garcia-Barrera, T.; Lorenzo, F.<br />
1670 Aroma volatile Aroma profile of strawberry juice cocktail produced 100µm PDMS GC-FID and GC-MS<br />
from in industrial conditions headspace<br />
stawberry Kem Ind, 54, #3, 135-141<br />
juice Cosic, B.; Ganic, K. Kovacevic; Komes, D.; Lovric, T.<br />
Ambient temperature, unless otherwise indicated. 40
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1671 Aroma Assessment of strawberry aroma through <strong>SPME</strong>- headspace GC-MS<br />
volatiles from GC and artificial neuron network methods. Variety<br />
stawberry Classification versus growing years.<br />
J Agri Food Chemistry, 52, #9, 2472-2478<br />
deBoishebert, V.; Urruty, L.; Giraudel, J.; Montury, M.<br />
1672 Triazine Hollow fiber membrane-protected <strong>SPME</strong> of triazine 65µm PDMS-DVB GC-MS<br />
herbicides in herbicides in bovine milk and sewage sludge samples<br />
milk/ sludge J. Chromatogr. A, 1047, #2, 189-194<br />
Basheer, Chanbasha; Lee, Hian Kee<br />
1673 Acrylamide Silylation of acrylamide for analysis by <strong>SPME</strong>-GC 100µm PDMS GC-MS<br />
in cereals ion-trap mass spectrometry BSTFA derivative<br />
J Agri and Food Chem, 52, #12, 3744-3748 headspace<br />
Lagalante, Anthony F.; Felter, Matthew A.<br />
1674 Quinoxyfen Influence of quinoxyfen residues on Saccharomyces GC<br />
pesticide in cerevisiae fermentation of grape musts<br />
grape musts Food Tech and Biotechnology, 42, #2, 89-97<br />
Lopez, C; Boselli, E; Piva, A; Ndaghijimana, M;<br />
Paparella, A; Antonello; S; Mastrocola, D<br />
1675 Pyrazine in Influence of vine training and sunlight exposure headspace GC<br />
musts/wines on the 3-alkyl-2-methoxypyrazines content in<br />
musts and wines from Vitis vinifera variety<br />
cabernet sauvignon<br />
J Agri and Food Chemistry, 52, #11, 3492-3497<br />
Sala, C; Busto, O; Guasch, J; Zamora, Fernando<br />
1676 Volatiles from The effects of sample preparation and GC injection headspace GC-MS<br />
oak in wine techniques on the accuracy of measuring quaiacol,<br />
4-methylguaiacol and other volatile oak compounds<br />
in oak extracts by stable isotope dilution analyses<br />
J Agri and Food Chemistry, 52, #11, 3244-3252<br />
Pollnitz, A.; Pardon, K.; Sykes, M; Sefton, M.<br />
1677 Volatiles Analysis of oak volatiles by GC-MS after ozone sanitization headspace GC-MS<br />
from Oak American J Enology & Viticulture, 56, #1, 46-51 5, 10, 15min sampling<br />
Marko, S.; Dormedy, E.; Fugelsang, K.; Dormedy, D.; 82°C<br />
Gump, B.; Wample, Robert<br />
1678 Volatiles Fast screening method for volatile compounds of oak wood 50/30µm DVB/CAR GC-MS (SIM)<br />
from Oak used for aging wines by headspace <strong>SPME</strong>-GC-MS (SIM) 40min @ 70°C<br />
wood J Agri and Food Chemistry, 52, #23, 6857-6861 Headspace<br />
Diaz-Maroto, M.; Sanchez-Palomo, Eva; Perez-Coello, M.<br />
1679 Volatiles in Rapid analysis of flavor volatiles in apple wine 75µm Carboxen GC-MS<br />
apple wine using headspace <strong>SPME</strong> Headspace<br />
J Institute of Brewing, 110, #1, 57-65<br />
Wang, L.; Xu, Y.; Zhao, G.; Li, J.<br />
1680 Volatiles from Markers for irradiated food headspace GC<br />
irradiated Chem. World, 2, #2, 20<br />
food Down, Steve<br />
1681 Volatiles from Development of <strong>SPME</strong> methodology for analysis 50/30µm DVB/CAR GC<br />
Beef of headspace volatile compounds in 60min @ 60°C<br />
extract simulated beef flavour. headspace<br />
Food Chemistry, 88, #1, 141-149<br />
Moon, S. Y.; Li-Chan, E. C. Y.*<br />
1682 Volatiles from Identification of radiolytic marker compounds in the headspace @ 30°C GC<br />
Beef irradiated beef extract powder by volatile analysis<br />
extract Microchemical Journal, 80. #2, 127-137<br />
Kim, Hun; Cho, Woo-; Ahn, Jun-; Cho, Dooe; Cha, Yong-<br />
1683 Volatiles from Characterization of volatile compounds of fruit juices headspace GC/MS<br />
fruit juices and nectars by headspace <strong>SPME</strong>and GC-MS.<br />
Food Chemistry, 87, #4, 627-637<br />
Riu-Aumatell, M.; Castellari, M.; Lopez-Tamames, E.;<br />
Galassi, S.; Buxaderas, S. *<br />
Ambient temperature, unless otherwise indicated. 41
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1684 Volatiles from Effect of fat nature and aroma compound hydrophobicity headspace GC-MS<br />
food emulsions on flavor release from complex food emulsions<br />
J Agr and Food Chem, 52, #20, 6257-6263<br />
Relkin, Perla; Fabre, Marjorie; Guichard, Elisabeth<br />
1685 Volatiles from Characterization of volatile compounds of French headspace GC-RI and GC-MS,<br />
olive oil and Spanish virgin olive oils by HS-<strong>SPME</strong>: I.<br />
identification of quality-freshness markers<br />
Food Chemistry, 88, #1, 151-157<br />
Cavalli, J; Fernandez, X.; Lizzani-Cuvelier, L; Loiseau, A<br />
1686 Oxidative Oxidation of lipids in food headspace GC<br />
byproducts Polish JFood and Nutrition Sci, 13, #1, 87-100<br />
from lipids Wasowicz, E; Gramza, A; Hes, M; Jelen, H;Korczak,J;<br />
Malecka, M; Mildner-Szkudlarz, S; Rudzinska, M;<br />
Samotyja, U; Zawirska-Wojtasiak, R<br />
1687 Volatiles from Photo-oxidation of lipids impregnated on the surface headspace @ 45°C GC-FID and GC-MS<br />
sea weed of dried seaweed (porphyra yezoensis ueda).<br />
Characterization of volatiles<br />
JAOCS, 81, #8, 773-781<br />
Ohshima, Toshiaki; Pan, Xiangqing; Ushio, Hideki<br />
1688 Oxidation Lipid oxidation in high-pressure processed chicken 10min @ 80°C GC-MS<br />
byproducts breast during chill storage andsubsequent heat headspace<br />
from chicken treatment: effect of working pressure, packaging<br />
atmosphere and storage time<br />
European Food Res and Tech, 219, #2, 167-170<br />
Wiggers, S.; Kroeger-Ohlsen, M.; Skibsted, L.<br />
1689 Volatiles in Determination of organic volatile impurities in citric acid GC-MS<br />
Citric acid by <strong>SPME</strong>-GC<br />
Fenxi Shiyanshi, 24, #1, 43-45<br />
Li, L. H.; Zheng, L.; Guo, W.<br />
1690 Hexanal in Determination of hexanal as indicator of the lipidic headspace GC-MS<br />
potato crisps oxidation state in potato crisps using GC and HPLC 2,4-dinitrophenyl- HPLC<br />
J. Chromatogr. A, 1046, #1-2, 75-81 hydrazone derivative.<br />
Lopez-Hernandez, J.; Paseiro-Losada, P.; Rodriguez-<br />
Bernaldo De Quiros, A.; Sanches-Silva, A.<br />
1691 Volatile thiol Variation in 4-mercapto-4-methyl-pentan-2-one release headspace GC-AED<br />
from wine by Saccharomyces cerevisiae commercial wine strains<br />
FEMS Microbiology Letters, 240, #2, 125-129<br />
Howell, K.; Swiegers, J.; Elsey, Go.; Siebert, T.;<br />
Bartowsky, E.; Fleet, G.; Pretorius, I.; Lopes, M.<br />
1692 Volatiles Determination of volatile compounds in wine by headspace GC-FID<br />
in wine automated <strong>SPME</strong>-GC<br />
Chromatographia, 59, #11-12, 733-738<br />
Cabredo-Pinillos, S.; Cedron-Fernandez, T.;<br />
Parra-Manzanares, A.; Saenz-Barrio, C.<br />
1693 Off taste of Evaluation of the antimicrobial activity of citrus headspace GC-MS<br />
soft drink essences on Saccharomyces cerevisiae<br />
J Agrl and Food Chemis, 52. #23, 6932-6938<br />
Belletti, Nicoletta; Ndagijimana, Maurice; Sisto, C<br />
Guerzoni, Maria E.; Lanciotti, Rosalba; Gardini, F.<br />
1694 Methyloxime Phenylacetaldehyde O-methyloxime: A volatile oxime methyl ether GC-MS<br />
in grapefruit compound produced by grapefruit leaves infected derivatives<br />
leaves with the citrus canker pathogen, Xanthomonas headspace<br />
axonopodis pv. citri<br />
J Agrl and Food Chemis, 53. #13, 5134-5137<br />
Zhang, Aijun; Hartung, John S.<br />
1695 Aroma Analysis and characterization of aroma-active compounds headspace GC-MS<br />
of leaves of Schizandra chinensis (omija) leaves.<br />
J Sci of Food and Agriculture, 85, #1, 161-166<br />
Zheng, C. H.; Kim, K. H.; Kim, T. H.; Lee, H. J.*<br />
Ambient temperature, unless otherwise indicated. 42
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1696 Essential oils Comparison of three different <strong>SPME</strong> fibres for analysis of 100µm PDMS GC-FID<br />
from yacon essential oils in yacon (Smallanthus sonchifolius) leaves 65µm PDMS-DVB<br />
leaves J. Chromatogr. A, 1084, #1-2, 2-6 50/30µm DVB/CAR<br />
Adam, M.; Bajer, T.; Eisner, A.; Juklova, M.; Ventura, K. headspace<br />
1697 Essential oils Comparison of essential oil composition of Artemisia headspace GC-MS<br />
from argyi argyi leaves at different collection times by<br />
leaves headspace <strong>SPME</strong>-GC-MS<br />
Chromatographia, 59, #11-12, 729-732<br />
Zheng, X. H.; Deng, C. H.; Song, G. X.; Hu, Y. M.*<br />
1698 Essential oils A <strong>SPME</strong> method to fingerprint dissolved organic 100µm PDMS GC<br />
from carbon released from Eucalyptus camaldulensis 15min @ 40°C, pH 2<br />
Eucalyptus Dehnh (River Red Gum) leaves saturated salt<br />
leaves Analytica Chimica Acta, 530, #2, 325-333 rapid stirring<br />
Zander, Alek; Bishop, Andrea G.; Prenzler, Paul D.<br />
1699 Off flavors Instrumental versus sensory detection of off- headspace GC-MS<br />
in catfish flavors in farm-raised channel catfish<br />
Aquaculture, 236, #1-4, 309-319<br />
Grimm, Casey; Lloyd, Steven; Zimba, Paul<br />
1700 Volaitiles from Composition of the essential oils and in vivo emission headspace GC-MS<br />
essential oils of volatiles of four Lamium species from Italy: L.<br />
purpureum, L hybridum , L bifidum & L.amplexicaule.<br />
Food Chemistry, 91, #1, 63-68<br />
Flamini, G.; Cioni, P. L.; Morelli, I.<br />
1701 Volatiles from The use of a non-equilibrated <strong>SPME</strong> method to headspace GC/SIM-MS<br />
essential oils quantitativelydetermine the off-notes in mint and<br />
other essential oil<br />
J Sci Food & Agri, 84, #10, 1223-1228<br />
Coleman, W. M., III.; Lawrence, B. M.; Craven, S. H.<br />
1702 Volatiles in Effect of gamma-irradiation on color, pungency, and headspace GC-MS<br />
red pepper volatiles of Korean red pepper powder<br />
Journal of Food Science, 69, #8, C585-C592<br />
Lee, J. H.; Sung, T. H.; Lee, K. T.; Kim, M. R.<br />
1703 Isothiocyanate Analysis of the isothiocyanates present in cabbage headspace GC-MS<br />
in cabbage leaves extract and their potential application<br />
leaves to controlAlternaria rot in bell peppers<br />
Food Res Intl., 38, #6, 701-708<br />
Troncoso, R.; Espinoza, C.; Sanchez-Estrada, A.;S.<br />
Tiznado, M. E.; Garcia, Hugo S.<br />
1704 Organo- New approach for the detection of organophosphorus headspace GC<br />
phosphate pesticide in cabbage using <strong>SPME</strong>/SnO2 gas sensor:<br />
in cabbage Principle and preliminary experiment<br />
Sens Actuators, B Chem, 102, #2, 235-240<br />
Huang, Xingjiu; Liu, Jinhuai; Meng, Fanli; Sun, Yufeng<br />
1705 Off flavor Determination of off-flavour compounds in apple juice caused headspace GC-MS<br />
in apple juice by microorganisms using headspace <strong>SPME</strong>-GC-MS<br />
Anal. Chim. Acta, 520, #1-2, 3-11<br />
Pfannhauser, W.; Siegmund, B.; Zierler, B.<br />
1706 Volatiles from Study of the effect of different fiber coatings and 75µm Carboxen GC<br />
cured ham extraction condition on dry cured ham volatile 50/30µm DVB/CAR<br />
compounds extracted by <strong>SPME</strong> 15, 30, 60min extraction<br />
Talanta, 64, #2, 458-466 headspace<br />
Ansorena, D.; Astiasaran, I.; Garcia-Esteban, M.; Ruiz, J. saturated NaCl<br />
1707 Volatiles in Comparison of simultaneous distillation extraction and <strong>SPME</strong> 75µm Carboxen GC-MS<br />
cured ham for the analysis of volatile compounds in dry-cured ham. headspace<br />
J Sci Food and Agri, 84, #11, 1364-1370<br />
Garcia-Esteban, M.; Ansorena, D.; Astiasaran, I.;<br />
Martin, D.; Ruiz, J. *<br />
Ambient temperature, unless otherwise indicated. 43
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1708 Volatiles from Characterization of French and Spanish dry-cured hams: headspace GC<br />
hams influence of the volatiles from the muscles and the<br />
subcutaneous fat quantified by <strong>SPME</strong>-GC<br />
Meat Science, 69, #4, 635-645<br />
Sanchez-Pena, C.; Luna, G; Garcia-Gonzalez, D.; Aparicio, R<br />
1709 Chloroanisoles Optimisation of a headspace <strong>SPME</strong> method for the direct headspace GC-ECD<br />
in wine determination of chloroanisoles related to cork taint in red wine<br />
J. Chromatogr. A, 1056, #1-2, 49-56<br />
Gonzalez-Saiz, J.; Martinez-Urunuela, A.; Pizarro, C.<br />
1710 Chlorophenols Multiple <strong>SPME</strong> in a non-equilibrium situation: Application in headspace GC-MS<br />
in wine quantitativeanalysis of chlorophenols and chloroanisoles<br />
related to cork taint in wine<br />
J. Chromatogr. A, 1089, #1-2, 31-38<br />
Gonzalez-Saiz, J.; Martinez-Urunuela, A.; Pizarro, C.<br />
1711 Chlorophenols Development of solid-phase extraction and <strong>SPME</strong> 100µm PDMS GC-ECD<br />
in cork/wine methods for the determination of chlorophenols Acetylation derivative<br />
in cork macerate and wine samples headspace<br />
J. Chromatogr. A, 1047, #1, 15-20<br />
Antico, E.; Insa, S.; Salvado, V.<br />
1712 2,4,6-Trichloro- Migration of 2,4,6-trichloroanisole from cork stoppers to wine headspace GC-ECD<br />
anisole European Food Research and Tech, 220, #3-4,347-352<br />
in wine Juanola, R.; Subira, D.; Salvado, V.; Regueiro, J.; Antico, E.<br />
1713 Volatile esters Inhibition of the decline of volatile esters and terpenols headspace GC-MS<br />
in wine during oxidative storage of Muscat-white and Xinomavro- 20°C heated sample<br />
red wine by caffeic acid and N-acetyl-cysteine<br />
Food Chemistry, 93. #3, 485-492<br />
Roussis, I.; Lambropoulos, I; Papadopoulou, D<br />
1714 Volatiles in Volatile compounds of red and white wines by headspace 50/30µm DVB/CAR GC<br />
wine <strong>SPME</strong> using different fibres. 40min @ 35°C<br />
J of Chromatographic Sci, 42, #6, 310-316 headspace<br />
Torrens, J.; Riu-Aumatell, M.; Lopez-Tamames, E.;<br />
Buxaderas, S. *<br />
1715 Haloanisoles Optimisation of a two-dimensional on-line coupling for headspace GC-ICP-MS<br />
in wine the determination of anisoles in wine using ECD GC-ECD<br />
and ICP-MS after <strong>SPME</strong>-GC separation<br />
J Anal At Spectrom, 20, #9, .883-888<br />
Garcia-Barrera, T.; Gomez-Ariza, J.L.; Lorenzo, F.<br />
1716 Impurities A review of theoretical and practical aspects of <strong>SPME</strong> headspace GC<br />
constituents in food analysis<br />
additives IntL J Food Sci & Technology, 39, #7, 703-717<br />
flavours Wardencki, Waldemar; Michulec, Magdalena; Curylo, J.<br />
1717 Flavour from Relationship between procyanidin and flavour contents headspace HPLC-UV<br />
cocoa liqours of cocoa liquors from different origins.<br />
J Agri Food Chemistry, 52, #20, 6243-6249<br />
Counet, C.; Ouwerx, C.; Rosoux, D.; Collin, S.<br />
1718 Methylpyrazine Cocoa quality and processing: A study by <strong>SPME</strong> and GC headspace GC-MS<br />
in cocoa analysis of methylpyrazines<br />
Food Bioprod. Process., 82, #4C, 291-297<br />
Cavicchioli, M.; Del Borghi, M.; Fabiano, B.; Perego, P.<br />
1719 Chlorophenol Optimisation of the derivatisation reaction and headspace GC<br />
in red wine subsequent headspace <strong>SPME</strong>method for the direct acetylated derivaties<br />
determination of chlorophenols in red wine<br />
J. Chromatogr. A, 1048, #2, 141-151<br />
Gonzalez-Saiz, J; Martinez-Urunuela, A; Pizarro, C.<br />
1720 Volatiles Headspace <strong>SPME</strong>-GC-MS analysis of the volatile 50/30µm DVB/CAR GC-MS<br />
from dried compounds of Evodia species fruits 18min @ 80°C<br />
fruit J. Chromatogr. A, 1087, #1-2, 265-273 headspace<br />
Benvenuti, S; Bertelli, D; Pellati, F; Rossi, M; Yoshizaki, F.<br />
Ambient temperature, unless otherwise indicated. 44
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1721 Volatiles Comparison of <strong>SPME</strong>, SFE, steam distillation, and solvent headspace GC-MS<br />
from dried extraction techniques for analysis of volatile consituents<br />
ripe fruit in Fructus amomi<br />
J AOAC Intl, 88, #2, 418-423<br />
Shen, S; Sha, Y; Deng, C; Fu, D; Chen, ; Zhang, Xian<br />
1722 Volatiles Rapid analysis of essential oil from Fructus Amomi by headspace GC-MS<br />
from dried pressurized hot water extraction followed by <strong>SPME</strong>-GC-MS 15min @ 80°C<br />
ripe fruit J Pharma& Biomedical Analysis, 38, #2, 326-331<br />
Deng, C; Wang, A; Shen, S; Fu, D; Chen, J; Zhang, X<br />
1723 Volatiles Sensory and instrumental evaluation of sweet marjoram headspace GC<br />
from sweet (Origanum majorana L.) aroma<br />
marjoram Flavour Fragrance J., 20, #5, 492-500<br />
Baranauskiene, R.; Demyttenaere, J.C.R.; Venskutonis, P.<br />
1724 Arom Trehalose improves flavour retention in dehydrated headspace GC-FID<br />
compouonds apricot puree GC-MS<br />
apricot puree Intl J Food Science & Tech, 40, #4, 425-435<br />
Komes, D; Lovric, T; Kovacevic G, Karin;<br />
Gajdos Kljusuric, Jasenka; Banovic, Mara<br />
1725 Volatiles from Volatile components of truffle species collected in Basilicata headspace GC-MS<br />
truffles Micologia Italiana, 30, #3, 11-29<br />
Mauriello, G.; Marino, R.; D'Auria, M.; Cerone, G.; Rana, G. L.<br />
1726 Volatiles from Sensitive detection of volatile organic compounds headspace GC-MS<br />
mould (MVOC) produced by mould by means of <strong>SPME</strong>-GC-MS<br />
Naunyn-Schmiedeberg's Archives of Pharmacology<br />
369, Suppl 1, R145<br />
Schuetz, E.<br />
1727 Phenylurea Application of <strong>SPME</strong> for determining phenylurea herbicides 85µm polyacrylate GC-NPD<br />
herbicides on and their homologous anilines from vegetables. headspace GC-MS-SIM<br />
vegetables J Chromatogr, A, 1042, #1-2, 9-14 14% salt, pH 11<br />
Berrada, H.; Font, G.; Molto, J. C.*<br />
1728 Volatiles in GC-mass Spectrometry coupled with <strong>SPME</strong> for 100µm PDMS GC-MS<br />
ginger determination of volatile constituents of chinese ginger headspace<br />
Fudan Xuebao Zirankexueban, 42, #6, 939-949<br />
Song Guo-xin; Deng Chun-hui; Wu Dan; Hu Yao-ming<br />
1729 MIBP in red Yield effects on 2-methoxy-3-isobutylpyrazine 50/30µm DVB/CAR GC-MS<br />
wine concentration in Cabernet Sauvignon using a <strong>SPME</strong>-GC-MS 30min @ 40°C<br />
J of Agri Food Chemistry, 52, #17, 5431-5435 30% NaCl<br />
Chapman, D. M.; Thorngate, J. H.; Matthews, M. A.; immersed sampling<br />
Guinard, J. -X.; Ebeler, S. E.*<br />
1730 Essential oils Volatile constituents of micropropagated plants of headspace GC and GC-MS<br />
from plants Bupleurum fruticosum L<br />
Plant Science (Oxford), 167, #4, 807-810<br />
Bertoli, Alessandra; Pistelli, Luisa; Morelli, lvano;<br />
Fraternale, Daniele; Giamperi, Laura; Ricci, Donata<br />
1731 Volatiles from Analysis of volatiles in porcine liver pates with added sage headspace GC-MS<br />
liver pates and rosemary essential oils by using <strong>SPME</strong>-GC-MS<br />
J Agri Food Chemistry, 52, #16, 5168-5174<br />
Estevez, Mario; Ventanas, Sonia; Ramirez, R; Cava, R<br />
1732 Volatiles in Determination of volatile compounds in antioxidant 50/30µm DVB/CAR GC-MS, GC-FID<br />
rosemary rosemary extracts by <strong>SPME</strong>-GC Preheat 15min @ 70C<br />
Analytical Letters, 38, #7, 1193-1212 Extract 60min @ 20C<br />
Carrillo, Jose David; Tena, Maria Teresa headspace<br />
1733 Volatiles from Kinetin enhanced linalool production by in vitro plantlets headspace GC<br />
plantlets of Lippia alba<br />
J. Essent. Oil Res., 16, #5, 405-408<br />
Bizzo, Humberto R.; Lage, Celso L.S.; Leitao, Suzana G.;<br />
Lopes, Daise; Tavares, Eliana S.<br />
Ambient temperature, unless otherwise indicated. 45
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1734 Volatiles in Optimization of wine headspace analysis by <strong>SPME</strong> 50/30µm DVB/CAR<br />
wine capillary GC-w/MS & FID headspace GC-MS<br />
Food Chemistry, 93, #2, 361-369<br />
Tat, L.; Comuzzo, P.; Stolfo, I.; Battistutta, F.<br />
1735 Chloroanisole Determination of chloroanisole compounds in red wine by headspace GC-MS<br />
in red wine headspace <strong>SPME</strong> AND GC-mass spectrometry<br />
J. Chromatogr. A, 1052, #1-2, 145-149<br />
Belsue, V; Gonzalez-Penas, E; Irigoyen, A; Lizarraga, E<br />
1736 Flavor volatiles Volatile flavour components of mandarin wine obtained headspace & GC-MS<br />
in madarin from clementines (Citrus reticula Blanco) extracted by <strong>SPME</strong> immersion sampling<br />
wine Flavour and Fragrance Journal. 19, #5, 413-416<br />
Selli, S.; Kurkcuoglu, M.; Kafkas, E.; Cabaroglu, T.;<br />
Demirci, B.; Baser, K. H. C.; Canbas, A.<br />
1737 Aroma Validation of a <strong>SPME</strong> method for headspace analysis 50/30µm DVB/CAR GC-MS<br />
components of wine aroma components headspace<br />
in wine Am J of Enology & Viticulture, 56, #1, 37-45<br />
Howard, Karen L.; Mike, James H.; Riesen, Roland<br />
1738 Volatiles from Interaction of soluble peptides and proteins from skeletal headspace GC<br />
meat curing muscle with volatile compounds in model systems as<br />
agents affected by curing agents<br />
J Agr Food Chem, 53, #5, 1670-1677<br />
Gianelli, M. Pia; Flores, Monica; Toldra, Fidel<br />
1739 Volatiles from Effect of Debaryomyces spp. on aroma formation and headspace GC-MS<br />
sausages sensory quality of dry-fermented sausages<br />
Meat Science, 68, #3, 439-446<br />
Flores, Monica; Dura, M-Asuncion; Marco, Aurora; Toldra, Fidel<br />
1740 Volatiles from Analysis of volatile components of fermented sausage headspace GC-MS<br />
sausages before and after ripeness by <strong>SPME</strong>-GC-MS<br />
Fenxi Ceshi Xuebao, 23, #6, 40-43<br />
Zhang, C. H.<br />
1741 Volatiles from Volatile compounds in Iberian dry-cured loin headspace GC-MS<br />
pig loin Meat Science, 68, #3, 391-400<br />
Muriel, E.; Antequera, T.; Petron, M.; Andres, A.; Ruiz, J.<br />
1742 Flavors in Characterization of Maltese goat milk cheese flavour headspace GC-MS<br />
goat milk using <strong>SPME</strong>-GC/MS<br />
cheese South African J of Animal Sci, 34, Suppl. 1, 176-180<br />
Chiofalo, B.; Zumbo, A.; Costa, R.; Liotta, L.; Mondello, L.;<br />
Dugo, P.; Chiofalo, V.<br />
1743 Volatiles Comparison of efficiency and stability of two headspace GC-MS<br />
from cheese preconcentration techniques (<strong>SPME</strong> and INDEx) coupled<br />
to an MS-based "Electronic Nose"<br />
Mitteilungen aus Lebensmitteluntersuchung und Hygiene<br />
Hygiene, 95, #1, 85-90<br />
Pillonel, L; Altieri, D; Tabacchi, R; Bosset, J<br />
1744 2-heptanone Significance of 2-heptanone in evaluating the effect of headspace GC-MS<br />
in goats milk microfiltration/pasteurisation applied to goats' milk<br />
International Dairy Journal, 14, #10, 915-921<br />
Avalli, Andrea; Povolo, Milena; Carminati, D; Contarini, G<br />
1745 Volatiles Qualitative and quantitative composition of the flavour headspace GC-MS<br />
from fruit components of Taiwan calamondin and Philippine Calamansi<br />
fruit<br />
European J of Horticultural Science, 69, #3, 117-124<br />
Yo, S.-P.; Lin, C.-H.<br />
1746 Off flavors Properties of soy protein isolate prepared from aqueous headspace GC-MS<br />
from soy alcohol washed soy flakes<br />
protein Food Res. Int., 38,#3, 273-279<br />
Hua, Yufei; Huang, Youru; Liu, Xiaoya; Qiu, Aiyong<br />
Ambient temperature, unless otherwise indicated. 46
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1747 Volatiles <strong>SPME</strong> analysis of volatile compounds from unfermented 65µm PDMS-DVB GC-MS<br />
from olives olives sujected to thermal treatment. headspace<br />
Anal & Bioanal Chem, 379, #5, 812-817<br />
Navarro, T.; de Lorenzo, C.; Perez, R. A.*<br />
1748 Volatiles A multivariate study of the relationship between fatty acids GC-MS<br />
from olive & and volatile flavor components in olive and walnut oils<br />
walnut oils J AO C Society, 82, #2, 105-110<br />
Torres, M.; Martinez, M.; Maestri, D.<br />
1749 Volatiles Simultaneous determination of volatile and semi-volatile headspace GC-MS<br />
from olive oil aromatic hydrocarbons in virgin olive oil by<br />
headspace <strong>SPME</strong> coupled to GC-MS<br />
J. Chromatogr. A, 1090. #1-2, 146-154<br />
Buxaderas, S.; Conte, L.; LopezTamames, E.;<br />
Pizzale, L.; Vichi, S.<br />
1750 Cannabinoids Determination of cannabinoids in hemp food MSTFA derivative GC-MS<br />
in food products by use of headspace <strong>SPME</strong>-GC-MS headspace<br />
Anal. Bioanal. Chem., 378, #1, 183-189<br />
Kroener, L.; Lachenmeier, ; Madea, B.; Musshoff,<br />
1751 Flavors from Use of <strong>SPME</strong> analysis for adsorption of the volatile 65µm PDMS-DVB GC-MS<br />
pineapple compounds in juices clarified by microfiltration. headspace<br />
juice Alimentaria, 41, #355, 35-39<br />
Carvalho, L.; Godoy, R..; Silva, C.; Miranda, R.;<br />
Figueira, J.<br />
1752 Volatiles in Analysis of volatile compounds in some typical 100µm PDMS GC-MS<br />
Brazilian fruits Brazilian fruits and juices by <strong>SPME</strong>-GC method 20min @ 50°C<br />
and juices Food Additives and Contaminants, 22, #6, 508-513 headspace<br />
Cardeal, Z.; Guimaraes, E.; Parreira, F.<br />
1753 Flavors from Storage and ultraviolet-induced tissue stress headspace GC<br />
pineapple effects on fresh-cut pineapple.<br />
J Sci Food and Agri, 84, #14, 1812-1816<br />
Lamikanra, O.; Richard, O. A.<br />
1754 Flavors from High pressure processing of Australian navel orange headspace GC-MS<br />
navel oranges juices: Sensory analysis and volatile flavor profiling 4°C and 10°C<br />
Innovative Food Sci. Emerg. Tech., 6, #4, 372-387<br />
Baxter, I.; Easton, K; Schneebeli, K; Whitfield, F<br />
1755 Thiabendazole Determination of thiabendazole in orange juice and rind headspace GC-MS-SIM<br />
in orange by LC w/fluorescence detection and confirmation by<br />
juice & rind GC-MS after extraction by matrix solid-phase dispersion<br />
J AOAC Int, 87, #3, 664-670<br />
Albero, B; Sanchez-Brunete, C; Tadeo, Jose L.<br />
1756 Sweetners Effects of carbohydrate and noncarbohydrate headspace GC<br />
in orange sweeteners on the orange spirit volatile compounds<br />
spirits Food Sci. Technol., 39, #2, 159-165<br />
Cordaro, F.; Da Porto, C.; Marcassa, N.<br />
1757 Volatiles Comparison of two headspace <strong>SPME</strong> fibres for the 100µm PDMS GC<br />
in orange detection of volatile chemical concentration changes 85µm polyacrylate<br />
juice due to industrial processing of orange juice headspace<br />
J Sci of Food & Agi, 85, #6, 1065-1071<br />
Jordan, M.; Goodner, K.; Castillo, M; Laencina, J.<br />
1758 Volatiles in Studies on the aroma of cupuassu liquor by 75µm Carboxen GC-MS, GC-AED<br />
liquor headspace <strong>SPME</strong> and gas chromatography. headspace<br />
J Chromatogr A, 1025, #1, 115-124<br />
de Oliveira, A; Pereira, N; Marsaioli, A; Augusto, F<br />
Ambient temperature, unless otherwise indicated. 47
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1759 Volatils from Seasonal, populational and ontogenic variation in the headspace GC<br />
oregano plants volatile oil content and composition of individuals of<br />
Origanum vulgare subsp. Hirtum , assessed by GC<br />
headspace analysis and by <strong>SPME</strong> sampling of<br />
individual oil glands.<br />
Phytochemical Analysis, 15,#5, 286-292<br />
Johnson, C; Kazantzis, A.; Skoula, M.;<br />
Mitteregger, U.; Novak, J.<br />
Polymers & Coatings<br />
791 Organics in The simplest sample treatment techniques to assess the Review article<br />
packaging materials quality and safety of food packaging materials.<br />
Reviews in AnalChem (2000) 19(6), 435-465<br />
Nerin, C.; Rubio, C.; Salafranca, J.; Batlle, R.<br />
254 Degradation products <strong>SPME</strong> as an Effective Means to Isolate Degradation<br />
in polymers Products in Polymers<br />
J. Environ. Polym. Degrad. 5 (2): 67-73 (1997)<br />
Hakkarainen, M., Karlsson, S., Albetsson, A.<br />
361 Volatile solvents in Direct VOC Analysis of Water-Based Coating by GC and <strong>SPME</strong> 65µm Carbowax/PDMS GC-FID<br />
water-based coatings J. Coating Technology, June 1997 5 min<br />
Censullo, A., Jones, D., Wills, M. headspace<br />
salt added<br />
626 Volatile solvents in Analysis of exempt paint solvents by GC using <strong>SPME</strong> 65µm Carbowax/PDMS GC-FID<br />
water-based coatings J. Coat Technol. (2000), 72(900), 69-74 5 min<br />
Bodrian, R., Censullo, A., Jones, D., Rashkin, M., Wills, M. headspace<br />
salt added<br />
466 Volatiles from Analysis of volatile varnishes of coated wires by <strong>SPME</strong> GC-MS<br />
varnished wire Fresenius' J. Anal. Chem. 1999, 364(7), 641-642<br />
Hinz, D., Kwarteng-Acheampong, W., Wenclawiak, B. headspace<br />
426 Acetaldehyde in Determination of Residual Acetaldehyde in Polyethylene<br />
polyethylene bottles Terephthalate Bottles on <strong>SPME</strong><br />
Czech J. Food Sci. (1998), 36(8), 401-405<br />
Cizkova, H., Voldrich, M., Dobias, J.<br />
761 Terephthalic acid, Determination of plastic monomers in water by <strong>SPME</strong> 85µm polyacrylate LC-UV<br />
vinyl acetate in coupled with liquid chromatography 65µm DVB/PDMS<br />
water J.AOAC Intl. Vol 84, No. 2, 2001, 432-436 20min. Immersed<br />
Batlle, R., Sanchez, C., Nerin, C. 5% salt, pH 5.7<br />
853 Vinyl chloride in Vinyl chloride analysis with (<strong>SPME</strong>)-GC-MS 75µm Carboxen/PDMS GC-MS<br />
plastic and water applied to analysis in materials and aqueous samples.<br />
Analusis (2000) 28(10) 980-987<br />
Charvet, R.; Cun, C.; Leroy, P<br />
headspace<br />
467 Bisphenol A Abbreviated analysis of bisphenol A with <strong>SPME</strong><br />
in plastic in tableware and food containers<br />
Shigen Kankyo Taisaku, 1999, 35(5), 447-451<br />
Takao, Y., Arizono, K.<br />
876 Poly(L-lactide) Characterization by <strong>SPME</strong>-GC-MS of matrix changes of GC-MS<br />
poly(L-lactide) exposed to outdoorsoil environment<br />
Polym. Degrad Stab, 71(2000) 147-151<br />
Gallet, G., Lempianinen, R., Karlsson, S<br />
943 Off odors Identification of a pharmaceutical packaging off-odor using 100µm PDMS GC-MS<br />
pharmceutical solid phase microextraction GC/MS<br />
packaging J Pharm Biomedical Analysis (2001), 25(3-4), 379-386<br />
Burinsky, D.; Polowy, K.; Sides, S.; Thornquest, A.<br />
heaspace<br />
Ambient temperature, unless otherwise indicated. 48
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
902 Residual solvents Residual solvents determination in pharmaceutical products<br />
pharmaceutical by GC-HS and Gc-MS-<strong>SPME</strong><br />
samples J Pharm & Biomedical Analysis 1998, 18(4-5), 623-638<br />
Camarasu, C., Mezei, M., Varga, G.<br />
468 Residual solvents Headspace <strong>SPME</strong> method optimization for 65µm DVB/PDMS<br />
pharmaceutical residual solvent analysis 30 min headspace<br />
samples Acta pharm. Hung., 1999, 69(2), 77-84<br />
Camarasu, C., Mezei, M., Szabo, A<br />
2gm NaCl,<br />
823 Residual solvents Improving GC determination of residual solvents in 100µm PDMS GC-MS<br />
pharmaceutical pharmaceuticals by the combined use of headspace <strong>SPME</strong> 16min. @ 20°C<br />
samples and isotopic delution<br />
J. Chromatogr A, 915 (2001) 209-216<br />
Coran, S,, Giannellini, S., Massimo, B., Pinzauti, S.<br />
heaspace<br />
845 Degradation product The use of <strong>SPME</strong>-GC-MS for the determination of GC-MS<br />
of diphenhydramine- degradation products of volatile and semivolatile compounds<br />
HCl J Microcolumn Separations (2001) 13(1), 1-7<br />
Snow, Nicholas H.; Karaisz, Kenneth<br />
1035<br />
1084<br />
1109<br />
VOCs in multi-layer<br />
packaging.<br />
1176 Polyamide<br />
thermooxidation<br />
1321<br />
1345<br />
1366<br />
New PVC materials for medical applications - The release profile of<br />
PVC/polycaprolactone-polycarbonate aged in aqueous environments GC-MS<br />
Polym Degradation Stab (2003) 80 (3), 451-458.<br />
Hakkarainen, Minna<br />
Solid-phase microextraction (<strong>SPME</strong>) in polymer characterization - Long-term<br />
properties and quality control of polymeric materials GC-MS<br />
Journal of Applied Polymer Science (2003) 89 (3), 867-873.<br />
Albertsson, Ann-Christine; Groning, Mikael; Hakkarainen, Minna<br />
Multiple headspace solid-phase microextraction for the quantitative<br />
determination of volatile organic compounds in multilayer packagings Carboxen/PDMS, DVB/carboxen/PDMS<br />
Journal of Chromatography A (2003) 999 (1-2), 155-164.<br />
Ezquerro, Oscar; Pons, Begona; Tena, Maria Teresa<br />
Headspace solid-phase microextraction with gas chromatography/mass<br />
spectrometry reveals a correlation between the degradation product pattern<br />
and changes in the mechanical properties during the thermooxidation of inplant<br />
recycled polyamide 6,6<br />
J. Appl. Polym. Sci (2002) 86(13), 3396-3407 GC-MS<br />
Groning, Mikael; Hakkarainen, Minna<br />
Qualitative and quantitative solid-phase microextraction gas<br />
chromatographic-mass spectrometric determination of the low-molecularmass<br />
compounds released from poly(vinyl chloride)/polycaprolactonepolycarbonate<br />
during ageing. GC-MS<br />
Journal of Chromatography, A (2003) 1010 (1), 9-16.<br />
Hakkarainen, M.<br />
Effect of polymer concentration on partitioning and molecular recognition in<br />
plasticized poly(vinyl chloride).<br />
Analytical Chemistry (2003) 75 (16), 4257-4264.<br />
Zhang, X.; Zhao, H.; Chen, Z.; Nims, R.; Weber, S. G.*<br />
Headspace solid-phase microextraction long dash a tool for new insights<br />
into the long-term thermo-oxidation mechanism of polyamide 6.6. GC-MS<br />
Journal of Chromatography, A (2001) 932(1-2), 1-11.<br />
Groening, M.; Hakkarainen, M. *<br />
Ambient temperature, unless otherwise indicated. 49
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1437 Polymer/additives<br />
1518<br />
1302<br />
Residual styrene<br />
monomer<br />
1209 Diethyl sulfide<br />
1268<br />
1434<br />
Monocyclic aromatic<br />
compounds in heavy<br />
fuel oil.<br />
Methylcyclopentadienylmanganese<br />
tricarbonyl<br />
Direct solid sampling methods for gas chromatographic analysis of<br />
polymer/additive formulations GC-FTIR-MS<br />
Polymer Testing (2001) 20(7), 729-740.<br />
Bart, J.C.J.<br />
Analysis of residual styrene monomer and other volatile organic compounds<br />
in expanded polystyrene by headspace solid-phase microextraction followed<br />
by gas chromatography and gas chromatography/mass spectrometry.<br />
Journal of Separation Science (2002) 25(8), 539-542<br />
Kusch, Peter; Knupp, Gerd<br />
Headspace solid-phase micro-extraction - gas chromatography - mass<br />
spectrometry applied to quality control in multilayer-packaging manufacture.<br />
Journal of Chromatography, A (2003) 1008 (1), 123-128.<br />
Ezquerro, O.; Pons, B.; Tena, M. T.*<br />
TiO/sub2/ reactivation in photocatalytic destruction of gaseous diethyl<br />
sulfide in a coil reactor<br />
Applied Catalysis B: Environmental (2003) 44 (1), 25-40.<br />
Lion, Claude; Savinov, Evgueni N.; Smirniotis, Panagiotis G.; Vorontsov,<br />
Alexandre V.<br />
A GC-MS method for analysis of volatile monocyclic aromatic compounds in<br />
heavy fuel oil using headspace-solid phase microextraction.<br />
Chromatographia (2003) 58 (1-2), 115-117.<br />
Mangani, G.; Berloni, A.; Maione, M. *<br />
Determination of methylcyclopentadienyl-manganese tricarbonyl by solid<br />
phase microextraction-direct thermal desorption-quartz furnace atomic<br />
absorption spectrometry<br />
Spectrochim Acta Part B At Spectrosc (2001) 56(2), 215-221.<br />
Alava-Moreno, Fausto; Bendicho, Carlos; Fragueiro, Maria Sandra; Lavilla,<br />
Isela<br />
75um Carboxen PDMS,<br />
headspace<br />
1760 Organo- Thermal stability analysis of organo-silicates, using headspace TGA, GC-MS<br />
silicates from solid phase microextraction techniques<br />
polyurethane Thermochim Acta, 429, #1, 13-18<br />
Edwards, G.; Halley, P.; Kerven, G.; Martin, D.<br />
1761 Volatiles Use of <strong>SPME</strong> to monitor gases resulting form headspace GC<br />
from polymer thermal plasma pyrolysis.<br />
pyrolysis Chromatographia, 60, #1-2, 85-88<br />
Cubas, A.; Carasek, E; Debacher, N. ; de Souza, I.<br />
GC-MS<br />
GC-MS<br />
1762 Volatiles Probing the microwave degradation mechanism of phenol- heaspace from 20° to GC-MS<br />
from phenolic containing polymeric compounds by sample pretreatment 80°C<br />
polymers and GC-MS analysis<br />
Analytica Chimica Acta, 526, #2, 121-129<br />
Chang, Yu-Cheng; Chu, Tieh-Chi; Ko, Chu-Jung; Ko, Fu<br />
1763 Thermal <strong>SPME</strong> to concentrate volatile products from thermal 100µm PDMS, GC-MS<br />
byproducts of degradation of polymers 75µm Carboxen<br />
polypropylene Polym Degradation Stab, 89, #1, 33-37<br />
Bortoluzzi, J.; Carasek, E; Pinheiro, E.; Soldi, V<br />
1764 Odours from Emission of possible odourous low molecular weight heaspace GC-MS<br />
polypropylene compounds in recycled biofibre/polypropylene composites<br />
composites monitored by head-space <strong>SPME</strong>-GC-MS<br />
Polym Degradation Stab, 90. #3, 555-562<br />
De Las Heras, Luis A.; Espert, Ana; Karlsson, Sigbritt<br />
1765 Odor Development and analytic of odor absorber headspace GC<br />
removal by Tenside Surfactants Deterg, 41, #6, 282-286<br />
Zn ricinoleate Bohmer, Thomas; Muller, Felix; Peggau, Jorg<br />
Ambient temperature, unless otherwise indicated. 50
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1766 Volatiles from Headspace-<strong>SPME</strong>-GC-MS identification of volatile organic 75µm Carboxen GC-MS<br />
polystyrene compounrds released from expanded polystyrene headspace<br />
J. Polym. Environ., 12, #2, 83-87<br />
Knupp, Gerd; Kusch, Peter<br />
1767 2-cyclopentyl- Correlation between emitted and total amount of headspace GC-MS<br />
cyclo- 2-cyclopentyl- cyclopentanone in polamide 6.6 GC-RI<br />
pentanone in allows rapid assessment by Head Space and HS-<strong>SPME</strong> .<br />
polamide 6.6 under non-equilibrium conditions<br />
J. Chromatogr. A, 1052, #1-2, 151-159<br />
Groning, Mikael; Hakkarainen, Minna<br />
1768 2-cyclopentyl- Multiple headspace <strong>SPME</strong>of 2-cyclopentyl- cyclopentanone headspace GC-MS<br />
cyclo- in polyamide 6.6: Possibilities and limitations in the<br />
headspace analysis of solid hydrogen-bonding matrices<br />
pentanone in J. Chromatogr. A, 1052, #1-2, 61-68<br />
polamide 6.6 Groning, Mikael; Hakkarainen, Minna<br />
1769 Hydrocarbons Determination of aromatic hydrocarbons in asphalt release headspace GC-MS<br />
from asphalt agents using headspace <strong>SPME</strong>-GC-MS<br />
J Chromatogra, A, 1069, #2, 235-244<br />
Isacsson, Ulf; Tang, Bing<br />
Natural Products<br />
401 Volatiles Analysis of Tobacco Volatiles with <strong>SPME</strong> 100µm PDMS GC-MS<br />
in tobacco Dr. W.D. Koller, Federal Research Centre for Nutrition, 10 min<br />
Institute of Process Engineering, Engesserstr. 20,<br />
76131 Karlsruhe/Deutschland<br />
headspace<br />
402 Pesticides in A Simple Screening for Pesticide Residues in Tobacco 100µm PDMS GC-MS<br />
water/MeOH extract Dr. W.D. Koller, Federal Research Centre for Nutrition, 10 min<br />
Institute of Process Engineering, Engesserstr. 20,<br />
76131 Karlsruhe/Deutschland<br />
immersion<br />
102 Flavor additives Qualitative and Quantitative Analysis of Flavor Additives 65µm Carbowax/DVB GC-FID<br />
in tobacco on Tobacco Products Using <strong>SPME</strong>-GC-MS 95°C, 15 min<br />
J. Agric. Food Chem. 45: 844-849 (1997)<br />
Clark, J., Bunch, J.<br />
KCl added<br />
430 Alkaloids Determination of Tobacco Alkaloids Using <strong>SPME</strong> and GC-NPD 100µm PDMS GC-NPD<br />
in tobacco Chromatographia (1998), 47(7/8), 443-448 12 min, immersed<br />
Yang, S., Smetena, I. 1% NH3OH solution<br />
627 Acetates Quantitative analysis of acetates in cigarette tobacco GC-MS<br />
in cigarette tobacco using <strong>SPME</strong>-GC-MS<br />
J. Chromatogr. Sci (2000), 38(4), 137-144<br />
Watson, C., Ashley, D.<br />
headspace<br />
137 Phenols in Quantitative Determination of Phenols in Mainstream Smoke 85µm polyacrylate GC-FID<br />
cigarette smoke with <strong>SPME</strong>-GC-Selected Ion Monitoring Mass Spectrometry 60 min<br />
J. Chromatogr. Sci. 34: 272-275 (1996)<br />
Clark, J., Bunch, J.<br />
stirring<br />
628 Azo dyes Study on determination of prohibited azo dyes by <strong>SPME</strong> GC-MS<br />
in leather & textiles Fenxi Deshi Xuebao (2000), 19(1), 76-78 reduced to aromatic<br />
Xu, H., Tong, H. amines w/Na2SO4<br />
Azo dyes Development of a <strong>SPME</strong> method for detection of the use of<br />
in leather & textiles banned Azo dyes in coloured tectiles and leather<br />
Rapid Commun.Mass Spectrom. 13, pp1833-1837<br />
Cioni, G., Bartolucci, G., Pieraccini, G., Meloni, S., Moneti, G.<br />
Ambient temperature, unless otherwise indicated. 51
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
916 Hexachlorobenzene Rapid Quantification of hexachlorbenzene in the color 100µm PDMS GC-MS<br />
in color additives additives D&C Red Nos. 27 & 28 (phloxine B) using <strong>SPME</strong> GC-MS 25min @ 26°C<br />
J Chromatogr A (1999) 863(1) 37-46 immersed<br />
Andrezejewski, D., Weisz, A. stirred<br />
210 Solvents in Derivatization Solid-Phase Microextraction Gas 65µm Carbowax/DVB GC-FID<br />
water-based coatings Chromatographic Mass Spectrometric Determination of 5 min<br />
Organic Acids in Tobacco headspace<br />
J. Chromatogr. Sci. 35 (5): 209-212 (1997) stirring<br />
Clark, T., Bunch, J. salt added<br />
836 Biproducts from Screening of biotransformation products of carvone GC-MS<br />
carvone enantiomers enantiomers by headspace-<strong>SPME</strong>/GC-MS<br />
Z. Naturforsch., C: J. Biosci(2001) 56(1/2) 58-64<br />
Demirci, F; Kirimer, N; Demirci, B; Noma, Y; Baser, K<br />
72 Monoterpenes Analysis of Monoterpenes from Conifer Needles Using <strong>SPME</strong> 100µm PDMS GC-FID<br />
in conifer needles J. High Res. Chromatogr. 18: 587-592 (1995) 40°C, 5 min<br />
Schafer, B., Hennig, P., Engewald, W. headspace<br />
399 Monoterpenes Changes in the Flavor of Monoterpenes During Their 65µm Carbowax/DVB GC-MS<br />
in conifer needles Autoxidation Under Storage Conditions 40°C, 10 min<br />
Dept. of Food Chemistry, Prague Institute of Chemical<br />
Technology, Technicka 5, CZ-16628 Prague 6, Czechia<br />
Pokorny, J., Pudil, F., Volfova, J., Valentova, H.<br />
headspace<br />
806 Monoterpenes <strong>SPME</strong> for the determination of volatile organics in the<br />
Microchemical Journal (2000) 65(3), 269-276<br />
Vereen, D. A.; McCall, J. P.; Butcher, D. J<br />
159 Terpenoids Head-Space <strong>SPME</strong> for the GC-MS Analysis of Terpenoid GC-MS<br />
in herbs in Herb-Base Formulations<br />
Fresenius’ J. Anal. Chem. 356: 80 (1996)<br />
Czerwinski, J., Zygmunt, B., Namiensnik, J.<br />
629 Terpenoids <strong>SPME</strong> of Volatile Components from Natural Grassland Plants 100µm PDMS GC-MSD<br />
in plant materials J. Agric.Food Chem. 2001, 49, 203-209 15 min @ 44°C<br />
Cornu, A., Carnat, A., Martin, B., Coulon, J., headspace,<br />
Lamaison, J, Berdague,J 1 gm in 40mL vial<br />
848 Monoterpens Monoterpene biosynthesis in Agathosma crenulata (Buchu) GC-MS<br />
in essential oils Flavour and Fragrance Journal (2001) 16(2), 123-135<br />
Mosandl, Armin; Fuchs, Sabine; Sewenig, Sabine<br />
320 Terpenoids Head Space <strong>SPME</strong> for the GC-MS Analysis of Terpenoids in GC-MS<br />
in herbs Herb-Based Formulations<br />
J. Anal. Chem. 356 (1): 80-83 (1996)<br />
Czerwinski, J., Zygmunt, B., Namiesnik, J.<br />
630 Monoterpens Examination of the enatomeric distribution of certain GC-MS<br />
in essential oils monoterpene hydrocarbons in selected essential oils by<br />
automated <strong>SPME</strong>-chiral GC -Mass spectrometry.<br />
J. Chromatogr. Sci., Mar.2000, 38(3), 95-99<br />
Coleman, W., Lawrence, B.<br />
6 se. headspace<br />
631 Monoterpens & Monoterpene composition essential oil from peppermint 100um PDMS GC-MS<br />
essential oils (Mentah x piperita L.) w/regard to Leaf position using 1 min @ 25°C<br />
in peppermint <strong>SPME</strong> and GC-MS Analysis<br />
J.Agric. Food Chem 1999, 3782-3786<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 52
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
632 Monoterpens & Biogenesis study of essential oils by <strong>SPME</strong> enatio- GC-MS<br />
essential oils multidimensional GC-MS (MDGC/MS)<br />
in mint plant GIT Lbor-Gachz (2000), 44(4), 358-362<br />
Fuchs, S., Beck, T., Mosandl, A.<br />
859 Review article Sample preparation for chromatographic analysis<br />
of plant material<br />
J Planar Chromatog- Modern TLC (2000) 13(6) 404-413<br />
Namiesnik, Jacek; Gorecki, Tadeusz<br />
863 Volatiles Emission of volatile compounds by seeds under GC-MS<br />
from seeds different environmental conditions<br />
American Midland Naturalist (2001) 145(2) 419-422<br />
Jorgensen, Eric<br />
633 Essential oils Chemical composition of the essential oil and headspace GC-MS<br />
in quava fruit <strong>SPME</strong> of the quava fruit<br />
J. Essent. Oil Res (2000), 12(2), 153-158<br />
Paniandy, J., Chane-Ming, J., Pieribattesti, J.<br />
headspace<br />
469 Essential oils Rapid GC with resistance heated capillary columns.<br />
from aromatic plants Analysis of essential oils from aromatic plants<br />
Git Spez. Sep. (1999), 19(1), 40-43<br />
Theuerl, T., Kleibohmer,W., Blanke, R.<br />
389 Cuticular Solid Phase Microextraction and Cuticular Hydrocarbon GC-MS<br />
hydrocarbons Differences Related to Reproductive Activity in the<br />
in Dinoponera Queenless Ant<br />
quadriceps ants J. Chemical Ecology, 24: 473-490, 1998<br />
Monnin, T., Malosse, C., Peeters, C.<br />
89 Pheromones Solid Phase Microextraction, an Alternative Method 100µm PDMS GC-FID<br />
in insects for the Study of Airborne Insect Pheromones 5 min<br />
(Metamasius hemipterus, Coleoptera, Curculionidae)<br />
J. High Res. Chromatogr. 18: 669-670 (1995)<br />
Malosse, C., Ramirez-Luca, P., Rochat, D., Morin, J.<br />
headspace<br />
818 Pheromones Use of <strong>SPME</strong> in the investigation of chemical 7µm PDMS GC-MSD<br />
in insects communication in social wasps<br />
J Chromatogr A, 873, (2000), 73-77<br />
Sldege, M., Moneti, G., Pieraccini, G., Turillazzi, S.<br />
10min @ 170C<br />
434 Pheromones <strong>SPME</strong>, A New Tool in Pheromone Identification in Lipidoptera 7µm PDMS GC-FID or<br />
in insects J High Resolut. Chromtogr. (1997), 20(6), 340-342 5 min GC-FTD<br />
Frerot, B., Malosse, C., Cain, A. rubbed on fiber<br />
850 Pheromones (Z)-dodec-3-en-1-ol, a novel termite trail pheromone identified GC-MS<br />
in termite trail after <strong>SPME</strong> from Macrotermes annandalei.<br />
J Insect Physiology (2001) 47(4-5) 445-453<br />
Bordereau, C; Bonnard, O; Ginies, C; Lettere, M; Peppuy, A;<br />
Robert, A; Semon, E<br />
634 Pheromones Role of <strong>SPME</strong> in the identification of highly volatile Carboxen/PDMS GC-MS<br />
of Rhinoceros Pheromones of two Rhinoceros beetles Scapanes australis 30 min<br />
beetles and Strategus aloeus (Coleoptera, Scarabaeidae, Dynastinae) immersion<br />
J Chromatogr. A, 885 (2000) 433-444, Rochat, D,<br />
Ramirez-Lucas,P., Malosse,C., Aldana,R. Kakul,T. Morin,J<br />
NaCl, borax buffer (pH9.2)<br />
Ambient temperature, unless otherwise indicated. 53
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
945 Insecticides Measurement of Insecticide Uptake and Effective<br />
Fraction in a Beneficial Insect Using <strong>SPME</strong><br />
Anal. Chem (2001) 73(13), 3107-3111<br />
Alix, A.; Collot, D.; Nenon, J.; Anger, J.<br />
635 Volatiles The measurement of volatile compounds in Foray 48B, an<br />
in insecticide insecticide prepared from Bacillus thuringiensis var. kurstaki<br />
Sci. Total Env., (2000) Vol. 263, No. 1-3, 155-160<br />
van Netten, C., Bartlett, K., Chow, Y., Leung, V., Teschke, K.<br />
120 NH3, putrescine, Solid Phase Microextraction Analysis of Static-Air Emissions 100µm PDMS FID<br />
methylamine in of Ammonia, Methylamine, and Putrescine from a Lure 10 min<br />
lure cultures for the Mexican Fruit Fly<br />
J. Agric. Food Chem. 44: 3554-3559 (1996)<br />
Robacker, D., Bartelt, R.<br />
headspace<br />
825 Fly Pheromones <strong>SPME</strong>-GC-direct depostioon infrared spectrometry as 100µm PDMS GC-MS<br />
in insects a convenient method for the determination of volatile<br />
compounds from living organisms<br />
J. Chromatogr. A 819 (1998) 45-50<br />
Auger, J., Rousset, S., Thibourt, E., Jaillais, B.<br />
1min.<br />
937 Chemical attractants The use of (<strong>SPME</strong>) devices in analysis for potential GC-MS<br />
from mosquito oviposition attractant chemicals from<br />
cyanobacterial mats. cyanobacterial mats.<br />
Aquatic Ecology (2000), 34(4), 413-420<br />
Rejmankova, E.; Lege, M.; Andre, R.; Higashi, .; Roberts, D.<br />
398 Chemical attractants Chemicals Attractive to Mexican Fruit Fly from 100µm PDMS GC-MS<br />
in soy broth culture Klebsiella pneumonia and Citrobacter freundii Cultures 27°C, 30 min<br />
Sampled by <strong>SPME</strong> headspace<br />
J. Chemical Ecology, Vol. 23, No., 12, 1997, 2897-2915<br />
Robacker, D., Bartelt, R.<br />
470 Pheromones Pheromone analysis using capillary GC techniques<br />
J. Chromatogr., A 1999, 843(1+2), 199-236<br />
Jones, G., Oldham, N.<br />
review of use of <strong>SPME</strong> GC<br />
124 Pheromones Solid Phase Microextraction Technique Used for Collecting 100µm PDMS GC-MS<br />
in insects Semiochemicals, Identification of Volatiles Released by 1-3 hr<br />
Individual Signaling Phylionorycter sylvella Moths<br />
Z. Nturforsch. C: Giosci. 51: 599 (1996)<br />
Karlson-Borg, A., Mozuaitis, R.<br />
headspace<br />
410 Pheromones in Purification, Identification, Concentration and Bioactivity GC-MS<br />
elephant urine of (Z)-7-dodecen-1-yl acetate: Sex Pheromone of the<br />
Female Asian Elephant, Elephas maximus<br />
Chem. Senses 22: 417-437<br />
Rasmussen, L.E.L., Lee, T.D., Zhang, A., Roelofs, W.L.,<br />
and Daves Jr., G.D.<br />
773 Fungal volatiles Application of <strong>SPME</strong> for the determination of fungal<br />
volatile metabolites<br />
Prog. Biotechnol (2000) 17, 369-377<br />
Jelen, H.; Wasowicz, E<br />
394 Free fatty acids Sampling Techniques for GC-MS Analysis of Long-Chain 100µm PDMS, GC-MS<br />
in exocrine secretions Free Fatty Acids from Insect Exocrine Glands 65µm Carbowax/DVB<br />
J. Chromatogr. A 816 (1998) 169-175 140°C, 30 min<br />
Maile, R., Dani, F., Jones, G., Morgan, D., Orthius, D. headspace<br />
Ambient temperature, unless otherwise indicated. 54
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
382 Volatile attractants Attractants from Stryphylococcus aureus Cultures from 100µm PDMS GC-MS<br />
in cultures Mexican Fruit Fly, Anastrepha ludens 5 min - 24 hr<br />
J. Chemical Ecology, Vol. 21, No. 11, 1861-1874 (1995)<br />
Robacker, D., Flath, R.<br />
headspace<br />
471 Volatile attractants Volatiles of bracket fungi Fomtopsis pinicola GC-MS<br />
in bracket fungi and Fomes fomentarius and their functions as<br />
insect attractants<br />
J. Chem. Ecol. (1999), 25(3), 567-590<br />
Faldt, J., Jonsell, M., Norlander, G., Borg-Karlson, A.<br />
584 Alcholols, aldehydes Volatiles from Fusarium verticillioides (Sacc.) Nirenb. 100µm PDMS GC-FID/MS<br />
in air and their attractiveness to Nitidulid beetles. 30 min<br />
J-Agric-Food-Chem. Jun 1999; 47(6): 2447-2454<br />
Bartelt,-RJ; Wicklow,-DT<br />
472 Volatile attractants Identification of a new blend of apple volatiles GC-FID<br />
from apples attractive to the apple maggot,<br />
Rhagoletis pomonella<br />
J. Chem. Ecol., 1999, 25(6), 1221-1232<br />
Zhang, A., Linn, C., Wright, S., Prokopy, R.<br />
Reissig, W., Roelogs, W.<br />
889 Volatile attractants Volatiles from apple (Malus domestica) eliciting antennal GC-Electrofrom<br />
apples antennal responses in female codling moth Cydia pomonella antennography<br />
(L.) (Lepidoptera: Tortricidae): Effect of plant injury and s<br />
sampling technique<br />
Zeitschrift fuer Naturforschung Sec C (2001) 56(3-4) 262-268<br />
Backman, A; Bengtsson, M; Karlsson, A; Liblikas, I; Witzgall, P<br />
636 Pyrazine Headspace <strong>SPME</strong> method for determining 3-akyl-2 methoxy- 100µm PDMS/DVB GC-NPD<br />
in Must pyrazine in musts by PDMS fibers 4 hr.@30°C<br />
J Chromatogr. Sci (2000), 880(1+2), 93-99 headspace<br />
Sala, C., Mestres, M, Marit, M., Busto, O., Guasch, J. NaCl added<br />
892 Pesticides Development of a <strong>SPME</strong>-GC-ECD methodology for GC-ECD<br />
in must & wine selected pesticides in must and wine samples<br />
Fresenius' J Anal Chem) 369(7-8) 647-651<br />
Alves, A; Correia, M; Delerue-Matos, C<br />
211 Musk compounds Headspace <strong>SPME</strong> and Gas Chromatography with 100µm PDMS GC-AED<br />
in cosmetic products Atomic-Emission Detection 80°C, 30 min<br />
Chromatographia 45: 138-144 (1997)<br />
Struppe, C., Schaefer, B., Engewald, W.<br />
headspace<br />
835 Volaitles from <strong>SPME</strong>-GC-MS analyses of hazelnut creams GC-MS<br />
hazelnut creams Lab. 2000 (2000) 14(7), 86-88<br />
Saba, A.; Cuzzola, A.; Raffaelli, A.; Salvadori, P.<br />
821 Fragrances A novel technology to study the emission of 100µm PDMS GC-MS<br />
on skin fragrance from the skin 30-60min<br />
Perfumer& Flavorist, vol. 23 (1998) 1-11<br />
Mookherjee, B., Patel, S., Trenkle, R., Wilson, R.<br />
headspace<br />
637 Volatiles Analysis of headspace constituents of Gardenia flower by 100µm PDMS GC-MS<br />
in Gardenia flower GC-MS with <strong>SPME</strong> and dynamic headspace sampling 60 min @ 28°C<br />
Sepu, (2000-09) 18(5) 425-455<br />
Liu, B., Gao, Y.<br />
headspace<br />
882 Fragrance On-site field sampling and analysis of fragrance from living 100µm PDMS GC-MS<br />
in Lavender flowers Lavender (Lavandula angustifolia L.) flowers by <strong>SPME</strong> 10 min @ 28°C<br />
coupled to GC and io-trap mass spectrometry<br />
J. chromatogr. A 917(2001) 245-250<br />
An, M., Haig, T., Hatfield, P.<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 55
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
125 Fragrance IFF Announces New Method for Living Flower Analysis 75µm Carboxen/PDMS GC-MS<br />
in flowers Spray Technology & Marketing Oct. 1996, pp 26-30<br />
Anon<br />
headspace<br />
126 Fragrance Flavors of Heliotrope Flowers, Analyzed by <strong>SPME</strong> Method GC-MS<br />
in flowers Gakkaishi 2: 6 (1995)<br />
Nippon, Shokuhin Kagaku<br />
874 Aroma compounds Analysis of the aroma compunds of the pulp of Borassus GC-MS<br />
in pulp aethiopum L (Palmaceae) from Cameroon using GC-MS,<br />
<strong>SPME</strong>-GC-MS and olfactormetry<br />
Ernaehung (Vienna) 24(2000) 159-161<br />
Jirovetz, L., Buchbauer, G., Ngassoum, M.<br />
746 Volatiles Influence of fiber coating in headspace <strong>SPME</strong>-GC analysis Carboxen/DVB/PDMS GC-FID<br />
from plants of aromatic and medicinal plants 1hr, headspace<br />
J.Chromatogr. A (2000) 892, 469-485<br />
Bicchi, C., Drigo, S., Rubiolo, P.<br />
792 Pesticides in <strong>SPME</strong> associated with microwave assisted extraction PDMS GC-ECD<br />
medicinal plants of organochlorine pesticides in medicinal plants<br />
Anal. Chim. Acta (2001) 428(1), 111-120<br />
Ho, W.-H.; Hsieh, S.-J<br />
90min,<br />
465 C2-C10 Acid, phenols, Evaluating Peats for their capacities to remove 85µm Polyacrylate GC-MS<br />
aldehydes odorous compounds from liquid swine manure 20 min @ 72°C<br />
in swine manure using headspace <strong>SPME</strong><br />
J. Environ. Sci.Health, B34(4), 709-748 (1999)<br />
Rizzuti, A., Cohen, A., Hunt, P., Vanotti, M.<br />
headspace, pH 2<br />
127 Cinnamon Classification of the Botanical Origin of Cinnamon by <strong>SPME</strong>-GC<br />
Chromatographia 42: 2187 (1996)<br />
Miller, K,. Poole, C., Pawlowski, T.<br />
321 Epicuticular <strong>SPME</strong> of Insect Epicuticular Hydrocarbons for GC-MS Analysis GC-MS<br />
hydrocarbons Rapid Commun. Mass Spectrom. 11 (8): 857-862 (1997)<br />
in insect culture Moneti, G., Dani, F., Pieraccini, G., Turillazzi, S.<br />
811 Volatile hydrocarbon Development of a method for the application of <strong>SPME</strong> GC-FID<br />
from bacterial to monitor biodegradation of volatile hydrocarbons 45min @ 30°C<br />
growth during bacterial growth on crude oil<br />
J Indus Microb & Biotech (2000) 25(3), 155-162<br />
Van Hamme, J. D.; Ward, O<br />
headspace<br />
1054<br />
Volatile compounds<br />
from Eucalyptus.<br />
Solid-phase microextraction of volatile compounds from the chopped leaves<br />
of three species of Eucalyptus.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (9), 2679-2686.<br />
Pawliszyn, Janusz; Caramao, Elina B.; Christensen, Eva; Zanin, Kelen D.;<br />
Zini, Claudia A.<br />
1082 Aromas and fragrances Sampling and sample preparation for analysis of aromas and fragrances.<br />
Trends in Analytical Chemistry (2003) 22 (3), 160-169.<br />
Augusto, Fabio; Leite e Lopes, Alexandre; Zini, Claudia Alcaraz<br />
1092<br />
Selenium and sulfur<br />
from plants.<br />
Simultaneous monitoring of volatile selenium and sulfur species from Se<br />
accumulating plants (wild type and genetically modified) by gas<br />
chromatography-mass spectrometry and gas chromatography-inductively<br />
coupled plasma mass spectrometry using solid-phase microextraction for<br />
sample introduction. GC-ICP MS<br />
Analytical Chemistry (2002) 74 (22), 5837-5844.<br />
Meija, J.; Montes-Bayon, M.; Le Duc, D. L.; Terry, N.; Caruso, J. A.*<br />
Ambient temperature, unless otherwise indicated. 56
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1120 Volatiles from flowers<br />
1121 Methyl jasmonate<br />
1139 Sulcatol from beetles<br />
1165 Mercury and tin<br />
1170 Ethanol from wood pulp<br />
Use of solid-phase micro-extraction as a sampling technique in the<br />
determination of volatiles emitted by flowers, isolated flower parts and pollen<br />
Journal of Chromatography A (2003) 1000 (1-2), 229-233.<br />
Cioni, Pier Luigi; Flamini, Guido; Morelli, Ivano<br />
Identification and quantification of methyl jasmonate in leaf volatiles of<br />
Arabidopsis thaliana using solid-phase microextraction in combination with<br />
gas chromatography and mass spectrometry. GC-MS<br />
Phytochemical Analysis (2003) 14 (3), 155-159.<br />
Dubery, Ian A.; Meyer, Riaan; Rautenbach, George F.<br />
Identification of sulcatol, a potential pheromone of the ambrosia beetle<br />
Gnathotrichus materiarius (Col., Scolytidae).<br />
Journal of Applied Entomology (2003) 127 (4), 189-194.<br />
Flechtmann, C. A. H.; Berisford, C. W.<br />
Elevated lead levels: A possible factor behind the forest die back of<br />
Montane forests in Sri Lanka?<br />
Journal De Physique. IV : JP (2003) 107 (II), 1439.<br />
Dissanayake, C.B.; Ranasinghe, P.N.<br />
PDMS GC-MIP/AES<br />
Determination of methanol released from wood and mechanical pulp by<br />
headspace solid-phase microextraction<br />
J Pulp Pap Sci (2002) 28(6), 199-203<br />
Eckerman, C.; Holmbom, B.; Pranovich, A.V.<br />
1171 Volatiles in wood On-line wood species sensor<br />
Process Control News Pulp Paper Industry (2002) 22(1), 10-11<br />
Fuhr, B.; Henry, D.; Sedgwick, G.; Smith, G.; Woolley, J.<br />
GC<br />
1173<br />
1181<br />
1183<br />
VOCs in herbal drug<br />
preparations<br />
Reevaluation of the chemical secretion of the sternal glands of Polistes<br />
social wasps (Hymenoptera Vespidae).<br />
Ethology Ecology & Evolution (2003) 15 (1), 73-82.<br />
Dani, F. R.; Jones, G. R.; Morgan, E. D.; Turillazzi, S.<br />
Characterization of Citrus unshiu ( C. unshiu Marcov. forma Miyagawa-wase<br />
) blossom aroma by solid-phase microextraction in conjunction with an<br />
electronic nose. GC-MS<br />
Journal of Agricultural and Food Chemistry (2003) 51 (2), 418-423.<br />
Choi, H. S.<br />
Chemical composition of some traditional herbal drug preparations:<br />
Essential oil and aromatic water of costmary (Balsamita suaveolens Pers.).<br />
Journal of Agricultural and Food Chemistry (2001) 49(12), 5907-5910<br />
Gallori, Sandra; Bilia, Anna Rita; Flamini, Guido; Landini, Andrea; Morelli,<br />
Ivano; Vincieri, Franco Francesco<br />
1195 Floral scent <strong>SPME</strong> - A valuable tool for investigation of flower scent<br />
Journal of Separation Science (2003) 26 (8), 715-721.<br />
Bartak, Petr; Bednar, Petr; Cap, Lubomir; Ondrakova, Lenka; Stransky,<br />
Zdenek<br />
Carboxen/PDMS GC-MS<br />
1204 Catnip aroma. Sensory and instrumental evaluation of catnip (Nepeta cataria L.) aroma.<br />
1239 Alpha pinene, ocimene.<br />
Journal of Agricultural and Food Chemistry (2003) 51 (13), 3840-3848.<br />
Venskutonis, Rimantas P.; Baranauskiene, Renata; Demyttenaere, Jan C.<br />
R.<br />
GC-MS<br />
Analysis of volatile components of Chrysanthemum coronarium L. by gas<br />
chromatography-mass spectrometry with solid-phase microextraction. GC-MS<br />
Fenxi Ceshi Xuebao (2003) 22 (3), 87-89.<br />
Weng, X. X.; Deng, C. H.; Song, G. X.; Hu, Y. M.; Zheng, X. H.<br />
Ambient temperature, unless otherwise indicated. 57
1276<br />
1318<br />
1324<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Volatile compounds in<br />
Brazilian aromatic<br />
plants.<br />
Volatile compounds<br />
from Scots pine seeds.<br />
VOC's in coniferous<br />
needle litter.<br />
1327 Volatiles in tobacco<br />
1352<br />
Volatiles in Michelia<br />
alba<br />
1379 Biogenic VOC's<br />
Application of headspace solid-phase microextraction and gas<br />
chromatography to the screening of volatile compounds from some Brazilian<br />
aromatic plants.<br />
Chromatographia (2003) 57 (5-6), 351-356.<br />
Sartoratto, A.; Augusto, F. *<br />
100 um PDMS GC-MS<br />
Volatile compound analysis of ageing Pinus sylvestris L. (Scots pine)<br />
seeds. GC-MS<br />
Flavour and Fragrance Journal (2003) 18 (4), 290-295.<br />
Tammela, P.; Hiltunen, R.; Hopia, A.; Laakso, I.; Nygren, M.; Vuorela, H.<br />
HS-<strong>SPME</strong> analysis of volatile organic compounds of coniferous needle litter<br />
Atmospheric Environment (2003) 37 (33), 4645-4650.<br />
Isidorov, V.A.; Rafalowski, K.; Vinogorova, V.T.<br />
Optimization of headspace sampling using solid-phase microextraction for<br />
volatile components in tobacco.<br />
Journal of Chromatography A (2002) 942(1-2), 33-39<br />
Yang, S. S.; Huang, C. B.; Smetena, I.<br />
Rapid determination of volatile constituents of Michelia alba flowers by gas<br />
chromatography-mass spectrometry with solid-phase microextraction<br />
Journal of Chromatography A (2002) 942(1-2), 283-288<br />
Hu, Yaoming; Deng, Chunhui; Hu, Keji; Shang, Chunqing<br />
100um PDMS, 25 degrees C, 4<br />
hours, headspace<br />
Monitoring biogenic volatile compounds (BVOC) emitted by Eucalyptus<br />
citriodora using <strong>SPME</strong><br />
Analytical Chemistry (2001) 73(19), 4729-4735.<br />
Alcaraz Zini, C.; Augusto, F.; Christensen, E.; Smith, B. P.; Caramao, E. B.;<br />
Pawliszyn, J. *<br />
PDMS/DVB GC<br />
1398 Volatiles from potential hosts of Rhopalicus tutela a bark beetle parasitoid. Carbowax/DVB<br />
Journal of Chemical Ecology (2001) 27(11), 2219-2231.<br />
Pettersson, Eva M<br />
GC-MS<br />
1404 Pheromones in termites<br />
1455 Terpenoids in olibanum<br />
1458<br />
1466<br />
Terpenes in black<br />
currant<br />
Aroma compounds in<br />
roses<br />
1467 Volatiles in flowers<br />
GC-MS<br />
GC-MS<br />
Species specificity of trail pheromones of fungus-growing termites from<br />
northern Vietnam. GC-MS<br />
Insectes Sociaux (2001) 48(3), 245-250.<br />
Bordereau, C.; Bonnard, O.; Peppuy, A.; Robert, A.; Semon, E.; Son, Ngo<br />
Truong<br />
Optimization of headspace solid phase microextraction for gas<br />
chromatography/mass spectrometry analysis of widely different volatility and<br />
polarity terpenoids in olibanum.<br />
Journal of Chromatograpy A (2003) 1018(1), 73-78<br />
Hamm, S.; Lesellier, E.; Bleton, J.; Tchapla, A.<br />
Influence of stage of ripeness on the enantiomeric distribution of chiral<br />
terpenes in blackcurrant fruits (Ribes nigrum L.).<br />
Journal of Food Science (2002) 67(9), 3284-3288<br />
Ruiz del Castillo, M. L.; Dobson, G.<br />
Analysis of rhythmic emission of volatile compounds of rose flowers.<br />
Molecular Methods of Plant Analysis (2002) 21, 199-221<br />
Verstappen, F. W. A.; Helsper, J. P. F. G.; Davies, J. A.<br />
Detection of physiologically active flower volatiles using gas<br />
chromatography coupled with electroantennography.<br />
Molecular Methods of Plant Analysis (2002) 21, 173-198<br />
Schiestl, F. P.; Marion-Poll, F.<br />
Ambient temperature, unless otherwise indicated. 58<br />
Various fibers compared GC-MS<br />
GC-FID
1469<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Fragrance compounds<br />
from Lavandula<br />
1477 Selenium in plants<br />
1508<br />
Volatiles from medicinal<br />
plants<br />
1510 Capsaicin<br />
1512<br />
1513<br />
Fragrances from Laurus<br />
nobilis<br />
Aroma volatiles from<br />
Eruca stavia<br />
1544 Volatiles in Eucalyptus<br />
1545 Volatiles in mint oils<br />
1549 Volatiles from flowers<br />
1553 Volatiles in sachalinmint<br />
1138<br />
Comparison of different extraction methods for the analysis of fragrances<br />
from Lavandula species by gas chromatography-mass spectrometry.<br />
Journal of Chromatography A (2002) 982(1), 31-47<br />
Lee, Dong-Sun; Kim, Nam-Sun<br />
Selenium in plants by mass spectrometric techniques: Developments in bioanalytical<br />
methods. Plenary Lecture.<br />
Journal of Analytical Atomic Spectrometry (2002) 17(9), 1015-1023<br />
Caruso, Joseph A.; Grant, Tyre D.; Meija, Juris; Montes-Bayon, Maria<br />
A review of modern sample-preparation techniques for the extraction and<br />
analysis of medicinal plants.<br />
Analytical and Bioanalytical Chemistry (2002) 373(1-2), 23-30<br />
Huie, Carmen W.<br />
Extraction methods for Capsaicin encountered in aerosol defense sprays; a<br />
comparative analysis.<br />
Abstracts of Papers American Chemical Society (2002) 223(1-2), ANYL 76<br />
Spicer, Oliver; Almirall, Jose R.<br />
Differences in the fragrances of pollen and different floral parts of male and<br />
female flowers of Laurus nobilis.<br />
Journal of Agricultural and Food Chemistry (2002) 50(16), 4647-4652<br />
Flamini, Guido; Cioni, Pier Luigi; Morelli, Ivano<br />
Aroma compound analysis of Eruca sativa (Brassicaceae) <strong>SPME</strong><br />
headspace leaf samples using GC, GC-MS, and olfactometry.<br />
Journal of Agricultural and Food Chemistry (2002) 50(16), 4643-4646<br />
Jirovetz, Leopold; Buchbauer, Gerhard; Smith, David<br />
Automation of solid-phase microextraction-gas chromatography-mass<br />
spectrometry extraction of eucalyptus volatiles.<br />
Journal of Chromatographic Science (2002) 40(3),140-146<br />
Zini, Claudia A.; Pawliszyn, Janusz; Lord, Heather; de Assis, Teotonio F.;<br />
Caramao, Elina B.; Christensen, Eva<br />
Semiquantitative determination of off-notes in mint oils by solid-phase<br />
microextraction<br />
Journal of Chromatographic Science (2002) 40(3), 133-139<br />
Coleman, W. M., III; Cole, S. K.; Lawrence, B. M.<br />
Analysis of the essential oil of the aerial parts of Viola etrusca from Monte<br />
Labbro (South Tuscany, Italy) and in vivo analysis of flower volatiles using<br />
<strong>SPME</strong><br />
Flavour and Fragrance Journal (2002) 17(2), 147-149<br />
Flamini, Guido; Cioni, P. L.; Morelli, I.<br />
Essential oil composition of sachalinmint from Norway detected by solidphase<br />
microextraction and gas chromatography-mass spectrometry<br />
analysis.<br />
Journal of Agricultural and Food Chemistry (2002) 50(6), 1543-1547<br />
Rohloff, Jens<br />
100um PDMS GC-MS<br />
GC-ICP-MS<br />
headspace GC-MS<br />
GC-ITMS<br />
GC-MS<br />
Production of volatile compounds by hairy root cultures of Cichorium intybus<br />
L under the influence of fungal elicitors and their analysis using solid-phase<br />
micro extraction gas chromatography-mass spectrometry. GC-MS<br />
Journal of the Science of Food and Agriculture (2003) 83 (8), 769-774.<br />
Bais, Harsh Pal; Dattatreya, B. S.; Ravishankar, G. A.<br />
Ambient temperature, unless otherwise indicated. 59
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1317 Volatile constituents of benzoin gums: Siam and Sumatra. Part 1.<br />
Flavour and Fragrance Journal (2003) 18 (4), 328-333.<br />
Lizzani-Cuvelier, Louisette; Delbecque, Claire; Fernandez, Xavier; Loiseau,<br />
Andre-Michel; Perichet, Christine<br />
Carboxen/PDMS, carbowax/DVBGC-MS<br />
1397 Terpenoids<br />
1022 Lindane and heptachlor<br />
1094<br />
1333<br />
1039 Pyrene<br />
1198<br />
1343<br />
Quantitative analysis of terpenoids in the gas phase using headspace solidphase<br />
microextraction (HS-<strong>SPME</strong>). PDMS<br />
Flavour and Fragrance Journal (2001) 16(6), 411-416.<br />
Zabaras, D.; Wyllie, S. G.<br />
The use of pine bark as a natural adsorbent for persistent organic<br />
pollutants: Study of lindane and heptachlor adsorption. GC-ECD<br />
Journal of Chemical Technology and Biotechnology (2003) 78 (2-3), 347-<br />
351.<br />
Alves, Arminda; Botelho, Cidalia; Ratola, Nuno<br />
Bioconcentration of organic chemicals: is a solid-phase microextraction fibre<br />
a good surrogate for biota?<br />
Environmental Science and Technology (2002) 36 (24), 5399-5404.<br />
Leslie, H. A.; Ter Laak, T. L.; Busser, F. J. M.; Kraak, M. H. S.; Hermans, J.<br />
L. M.<br />
15 um PDMS GC-ECD<br />
Classification of Duvernay sourced oils from central and southern Alberta<br />
using Compound Specific Isotope Correlation (CSIC) CF-IRMS<br />
Bulletin of Canadian Petroleum Geology (2003) 51 (5), 357-368.<br />
Fowler, Martin G.; Harris, Scott A.; Whiticar, Michael J.<br />
Sorption of pyrene to dissolved humic substances and related model<br />
polymers. 2. Solid-phase microextraction ( <strong>SPME</strong> ) and fluorescence<br />
quenching technique (FQT) as analytical methods.<br />
Environmental Science and Technology (2002) 36 (20), 4403-4409.<br />
MacKenzie, K.; Georgi, A.; Kumke, M.; Kopinke, F. -D.*<br />
PDMS GC-FID<br />
Analysis of the volatile constituents of Apium graveolens L. and Oenanthe L.<br />
by gas chromatography-mass spectrometry, using headspace solid-phase<br />
microextraction.<br />
Chromatographia (2003) 57 (11-12), 805-809.<br />
Deng, C. H.; Song, G. X.; Zheng, X. H.; Hu, Y. M.*; Zhang, X. M.<br />
PDMS/DVB GC-MS<br />
Analysis of the volatile constituents of Schisandra chinensis (Turz.) Bail by<br />
gas chromatography-mass spectrometry, using headspace solid-phase<br />
microextraction. PDMS, carbowax/DVB GC-MS<br />
Chromatographia (2003) 58 (5-6), 289-294.<br />
Deng, C. H.; Song, G. X.; Hu, Y. M.*; Zhang, X. M.<br />
1770 Cuticular Diet-mediated inter-colonial aggression in Formosan headspace GC-MS<br />
hydrocarbons subterranean termite Coptotermes formosanus<br />
from wood J Chemical Ecology, 30, #12, 2559-2574<br />
Florane, C.; Bland, J.; Husseneder, C; Raina, A.<br />
1771 Phermones Evaluation of the major female Eurytoma amygdali headspace GC<br />
from wasp sex pheromone components, (Z,Z)6,9-tricosadiene and<br />
(Z,Z)-6,9-pentacosadiene for male attraction in field tests<br />
J Chemical Ecology, 30, #6, 1245-1255<br />
Mazomenos, B.; Athanassiou, C; Kavallieratos, N; Milonas, P<br />
1772 Volatiles from Avian exocrine secretions. I. Chemical characterization dimethyl disulfide GC-MS<br />
secretion of the volatile fraction of the uropygial secretion of derivatization<br />
the green woodhoopoe, Phoeniculus purpureus<br />
J Chemical Ecology, 30, #8, 1603-1611<br />
Burger, B.; Reiter, B.; Borzyk, O.; Du Plessis, M.<br />
1773 Essential oil Volatile constituents of different organs of Headspace GC, GC-MS<br />
P. bituminosa Psoralea bituminosa L<br />
from leaves Flavour Fragrance J., 19,#2, 166-171<br />
Bertoli, A; Menichini, F; Morelli, I; Noccioli, C; Pistelli, L<br />
Ambient temperature, unless otherwise indicated. 60
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1774 Volatiles from Volatile constituents of different parts (roots, stems Headspace GC, GC-MS<br />
plants and leaves) of Smyrnium olusatrum L<br />
Flavour Fragrance J., 19,#6, 522-525<br />
Bertoli, A.; Fraternale, D.; Giamperi, L..; Morelli, I.;<br />
Pistelli, L.; Ricci, D.<br />
1775 Formaldehyde Quantitative determination of formaldehyde in 65µm PDMS-DVB GC-MS<br />
in cosmetics cosmetics using a combined <strong>SPME</strong>- pentafluorophenyl<br />
isotope dilution mass spectrometry method. hydrazine derivative<br />
J. Chromatogr. A, 1029, #1-2, 217-222 headspace<br />
Rivero, R. T.; Topiwala, V.<br />
1776 Solvent Vapor-phase analysis of isobutyl acetate, isopropyl headspace GC-MS<br />
esters acetate, n-propyl acetate and their respective<br />
alcohols using <strong>SPME</strong>-GC w/ mass selective detector<br />
J Chromatography, A, 1066, #1-2, 225-230<br />
Cobb, G.; Cox, S.; Polydore, C.; Radtke, C.<br />
1777 Solvents in Disposable ionic liquid coating for headspace <strong>SPME</strong> headspace GC-FID<br />
paint of benzene, toluene, ethylbenzene, and<br />
xylenes in paints followed by GC-FID<br />
J. Chromatogr. A, 1066, #1-2, 27-32<br />
Liu, Jing-Fu; Li, Ning; Jiang, Gui-bin; Liu, Jie-min;<br />
Jonsson, Jan Ake; Wen, Mei-juan<br />
1778 Terpenes in Comparison of terpene composition in Engelmann spruce headspace GC<br />
spruce trees (Picea engelmannii) using hydrodistillation, <strong>SPME</strong> and PLE<br />
Zeitschrift fuer Naturforschung, 59, #9-10, 641-648<br />
Mardarowicz, M; Wianowska, D., A.; Sawicki, R.<br />
1779 Fugal volatiles Use of headspace <strong>SPME</strong>and headspace sorptive headspace GC-MS<br />
on Agar extraction for the detection of the volatile<br />
metabolites produced by toxigenic Fusarium species.<br />
J Chromatogr A, 1027, #1-2, 147-154<br />
Demyttenaere, J; Morina, R; De Kimpe,N; Sandra, P<br />
1780 Terpenes Natural variability of the enantiomeric composition headspace GC-MS<br />
in plant of bioactive chiral terpenes in Mentha piperita<br />
emissions J Chromatogr A, 1054,#1-2, 87-93<br />
Blanch, G.P.; Herraiz, M.; Ruiz Del Castillo, M.L.<br />
1781 Terpenes Analysis of enantiomeric and non-enantiomeric 65µm PDMS-DVB GC-MS<br />
in plant monoterpenes in plant emissions using portable dynamic direct air sampling<br />
emissions air sampling/<strong>SPME</strong> and chiral GC-MS<br />
Atmos. Environ., 39, #27, 4875-4884<br />
Williams, Jonathan; Yassaa, Noureddine<br />
1782 Terpenes The release of terpenes during storage of biomass headspace GC-MS<br />
in biomass Biomass Bioenergy, 28, #1, 29-34<br />
Rupar, Katarina; Sanati, Mehri<br />
1783 Volatiles Analysis of Platycladus orientalis volatiles and their headspace in situ GC-MS<br />
from trees electroantennogram responses with Semanotus<br />
bifasciatus<br />
Forest Research, 18, #3, 260-266<br />
Kong X; Zhang Z; Wang H; Yang Jie; Hu Y<br />
1784 Volatiles of Determination of volatile components of Amomum headspace GC-MS<br />
dried fruit villosum Lour. by GC-MS with head-space <strong>SPME</strong><br />
Amomum Fudan Xuebao Zirankexueban, 43, #4,676-679<br />
villosium Song Guo-xin; Deng Chun-hui; Wu Dan; Hu Y<br />
1785 Volatiles A direct quantitative analysis method for monitoring 50/30µm DVB/CAR GC-MS<br />
from leaves biogenic volatile organic compounds released 20 min extract<br />
from leaves of Pelargonium hortorum in situ. headspace<br />
Anal and Bioanal Chemistry, 380, #7-8, 950-957<br />
Deng, X.; Peng, J.; Luo, B.; Wei, M.; Hu, W.; Du, J.<br />
Ambient temperature, unless otherwise indicated. 61
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1786 Ocytl-, nonyl- Determination of nonylphenol and octylphenol in paper Headspace GC-MS<br />
phenol in by microwave-assisted extraction coupled to headspace<br />
paper <strong>SPME</strong> and GC-MS<br />
J Chromatogra, A, 1065, #2, 251-256<br />
Barcelo, D.; Lacorte, S.; Latorre, A.; Montury, M.<br />
1787 Nicotine in <strong>SPME</strong>-based approach to determine free-base nicotine in headspace GC-MS<br />
cigarette trapped mainstream cigarette smoke total particulate matter.<br />
smoke J Agr Food Chem, 52, #24, 7240-7245<br />
Watson, C. H.; Trommel, J. S.; Ashley, D. L.<br />
1788 Flavour aroma Analysis of aroma constituents in tobacco flavour by 100µm PDMS GC-MS<br />
in tobacco GC-MS with solid-phase microextraction. 85µm polyacrylate<br />
Fenxi Shiyanshi, 23, #10, 22-25 headspace<br />
Dong, L.; Zhu, S. K.; Su, X. L.; Wu, C. Y.;<br />
Xiong, G. X.; Chen, Z. G.; Li, D.<br />
1789 Diterpenes The moss Physcomitrella patens releases a Headspace GC<br />
from moss tetracyclic diterpene<br />
Plant Cell Reports, 22, #10, 780-786<br />
von Schwartzenberg, K.; Schultze, W.; Kassner, H.<br />
1790 Volatiles from Identification and synthesis of volatiles released by headspace GC<br />
crocatus the myxobacterium Chondromyces crocatus<br />
Tetrahedron, 60, #17, 3863-3872<br />
Schulz, Stefan; Fuhlendorff, Jens; Reichenbach, H.<br />
1791 Volatiles in Determination of volatile compounds in Magnolia headspace GC-MS<br />
magnolia bark by microwave-assisted extraction coupled<br />
bark to headspace <strong>SPME</strong> and GC-MS<br />
Analytical Sciences, 20, #5, 857-859<br />
Sha, Y. F.; Huang, T. M.; Shen, S.; Duan, G. L.*<br />
1792 Volatils of Chemical components of Vetiveria zizanioides volatiles. headspace GC-MS<br />
zizanioides Yingyong Shengtai Xuebao, 15, #1, 170-172<br />
Huang Jinghua; Li Huashou; Yang Jun; Chen Yufen;<br />
Liu Yinghu; Li Ning; Nie Chengrong<br />
1793 Terpens in Headspace solid-phase microextraction (HS-<strong>SPME</strong>): A headspace GC/MS<br />
coniferos microscale sampling technique for determination of mononeedles<br />
terpene hydrocarbons in coniferous needles by GC-MS<br />
Anal. Bioanal. Chem., 378, #1, 150-158<br />
Chvilickova, I.; Kuban, V.<br />
1794 Volatile odors Determination of odour-causing volatile organic compounds 50/30µm DVB/CAR GC-MS<br />
from cork in cork stoppers by multiple headspace <strong>SPME</strong> 45min @ 100°C<br />
J. Chromatogr. A, 1068, #2, 201-208 headspace<br />
Ezquerro, Oscar; Tena, Maria Teresa<br />
1795 Essential oils Rapid determination of essential oil in Acorus tatarinowii 10min @ 60°C GC-MS<br />
from chinese Schott. by pressurized hot water extraction followed headspace<br />
medicine followed by <strong>SPME</strong>-GC-MS<br />
J. Chromatogr. A, 1059, #1-2, 149-155<br />
Deng, Chunhui; Li, Ning; Zhang, Xiangmin<br />
1796 Volatiles from Identification of volatile organic compounds emitted by headspace GC-MS<br />
aged book a naturally aged book using <strong>SPME</strong>-GC-MS. contact sampling<br />
J. Chromatogr. A, 1026, #1-2, 9-18<br />
Lattuati-Derieux, A.; Bonnassies-Termes, S.; Lavedrine, B.<br />
1797 Volatiles from Identification by GC-MS of the volatile organic compounds headspace GC-MS<br />
wood fungi emitted from the wood-rotting fungi Serpula lacrymans and<br />
Coniophora puteana, and from Pinus sylvestris timber<br />
Mycological Research, 108, #7, 806-814<br />
Ewen, Richard J.; Jones, Peter R. H.; Ratcliffe, N.;<br />
Spencer-Phillips, Peter<br />
1798 t-2-hexenal Chemical released from host Acacia by feeding headspace GC<br />
from herbivores is detected by symbiotic Acacia-ants.<br />
acacia leaves. Caribbean J of Science, 40, #3, 396-399<br />
Wood, William F.; Wood, Brenda<br />
Ambient temperature, unless otherwise indicated. 62
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1799 volatile flavor Aroma evaluation of an aquatic herb, changpo (Acorus headspace GC-MS<br />
changpo calamus var. angustatus Bess), by AEDA and <strong>SPME</strong><br />
J Agr Food Chem, 52, #26, 8099-8104<br />
Choi, H. S.<br />
1800 Volatiles from Aroma-active compounds of Pinus densiflora 100µm PDMS GC-MS<br />
pine needles (red pine) needles 75µm Carboxen<br />
Flavour Fragrance J., 19, #6, 532-537 headspace<br />
Kim, Kyoung Heon; Kim, Tae Hwan; Lee, Hyong Joo; Yu, E<br />
1801 Hydrocarbons Evaluation of hydrocarbon emissions from heart-And headspace @ 50°, 70°, GC-MS<br />
emissions sapwood of Scots pine using a laboratory-scale wood drier and 90°C<br />
from pine Holzforschung, 58, #6, 660-665<br />
Bengtsson, Peter; Sanati, Mehri<br />
1802 Odors from Representativeness of extracts of offset paper 100µm PDMS GC-MS<br />
packaging packaging and analysis of the main 3 min @ 40°C<br />
odor-active compounds headspace<br />
J Agr Food Chem, 52, #8, 2326-2334<br />
Landy, P.; Nicklaus, S.; Semon, E.; Mielle, P.; Guichard, E.<br />
1803 E coli volatiles <strong>SPME</strong>, GC, and MS coupled w/discriminant factor headspace @ 37°C GC-MS<br />
coli from analysis and multilayer perceptron neural network for<br />
brooth detection of Escherichia coli<br />
J of Food Protection, 67, #8, 1597-1603<br />
Siripatrawan, Ubonratana; Linz, John E.; Harte, Bruce R.<br />
1804 Floral Catnip, Nepeta cataria (Lamiales: Lamiaceae) headspace GC-MS<br />
volatiles A closer look: Seasonal occurrence of epetalactone<br />
from catnip isomers and comparative repellency of three<br />
terpenoids to insects<br />
Environmental Entomology, 33, #6, 1562-1569<br />
Schultz, G; Simbro, E; Belden, J; Zhu, J; Coats, Joel<br />
1805 Volatiles Comparison of different extraction methods for the headspace GC-MS<br />
from plants analysis of volatlle secondary metabolites of<br />
Lippia alba )Mill) N.E. Brown, grown in Colombia, and<br />
evaluation of its in vitro antioxidant activity.<br />
J Chromatogr A, 1025, #1, 93-103<br />
Stashenko, E.; Jaramillo, B.; Martinez, J<br />
1806 Rose/nerol Biotransformation of (R)-(+)-and (S)-(-)-citronellol headspace GC-MS<br />
oxides by Aspergillus sp. and Penicillium sp, and the use steam distillation @<br />
of <strong>SPME</strong> for screening. 3.5 pH<br />
J Chromatogr A, 1027,#1-2, 137-146<br />
Demyttenaere, J; Vanoverschelde, J; De Kimpe, N<br />
1807 Fragrances Headspace-<strong>SPME</strong> & hydrodistillation of two fragrant Artemisia headspace GC, GC-MS<br />
from Artemicia Flavour Fragrance J., 20. #4, 395-398<br />
plants Baser, K. Husnu Can; Demirci, Betul; Demirci, Fatih<br />
1808 Volatiles from Volatiles associated with preferred and non- direct sampled GC-EAD<br />
slash/ loblolly preferred hosts of the Nantucket pine tip moth,<br />
pine Rhyacionia frustrana<br />
J Chemical Ecology, 30, #5, 977-990<br />
Asaro, C.; Sullivan, B.; Dalusky, M.; Berisford, C.<br />
1809 Pheromone Neocembrene A, a major component of the trail-following headspace GC-MS<br />
of canalifrons pheromone in the genus Prorhinotermes (Insecta,<br />
Isoptera, Rhinotermitidae)<br />
Chemoecology, 15, #1, 1-6<br />
Sillam-Dusses, D.; Semon, E.; Moreau, C.;<br />
Valterova, I.; Sobotnik, J.; Robert, A.;Bordereau, C<br />
1810 Pheromone Partial elucidation of Trichogramma putative sex headspace for GC-MS<br />
from wasp pheromone at trace levels by <strong>SPME</strong>-GC-MS studies 20-50hr<br />
J. Chromatogr. A, 1067, #1-2, 311-321<br />
Melo, R; Posthumus, M.; Silva, I.; Van Beek, T<br />
Ambient temperature, unless otherwise indicated. 63
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1811 Sesiidae sex New type of sesiidae sex pheromone identified headspace GC-MS<br />
pheromone from the hornet moth Sesia apiformis 2-alkenals derivative<br />
from hornet J Chemical Ecology, 30, #4, 805-817<br />
moth Francke, W.; Karalius, V.; Plass, E.; Lehmann, L.;<br />
dos Santos, A.; Buda, V.; Mozuraitis, R.<br />
Borg-Karlson, A.;<br />
1812 Pheromone Flight activity and further evidence for a female- headspace GC-EAD<br />
emission produced sex pheromone of the apple leaf<br />
from leaf midge, Dasineura mali, in Nova Scotia<br />
midge Northeastern Naturalist, 12, #1, 93-102<br />
Heath, J.; Zhang, Aijun; R., Wendell L.; Smith, R.<br />
1813 Pheromone Effect of aging on pheromone emission from a headspace GC-MS<br />
emission commercial beet armyworm (Lepidoptera :<br />
from traps Noctuidae) lure and trap efficiency<br />
J Economic Entomology, 98, #2, 373-377<br />
Showler, A..; Salgado, E.; Fraser, I.; Robacker, D.<br />
1814 Pheromone A cost of alarm pheromone production in cotton headspace GC-MS<br />
from apids apids, Aphis gossypii<br />
Naturwissenschaften, 92, #2, 69-72<br />
Byers, John A.<br />
1815 Pheromone <strong>SPME</strong> for the investigation of sex pheromone of headspace GC-MS<br />
from fruit Eucosam notanthes Meyrick 5min @ 20°C<br />
borer Talanta, 65, #3, 743-749<br />
Chu, T. Y.; Hung, C. C.; Hsu, C. Y.<br />
1816 Fragrance Rapid determination of volatile compounds emitted headspace GC-MS<br />
from flowers from Chimonanthus praecox flowers by headspace<br />
<strong>SPME</strong>-GC-MS<br />
Zeitschrift fuer Naturforschung, 59, #9-10, 636-640<br />
Deng, Chunhui; Song, Guoxin; Hu, Yaoming<br />
1817 Fragrance Single step determination of fragrances in Cucurbita 65µm PDMS-DVB GC-MS-MS<br />
from flowers flowers by coupling headspace <strong>SPME</strong> low-pressure 5min @ 60°C<br />
GC-tandem mass spectrometry headspace<br />
J. Chromatogr. A, 1045, #1-2, 173-179<br />
Egea Gonzalez, F.; Garrido Frenich, A.; Guerra Sanz, J.;<br />
Martinez Vidal, J.L.; Mena Granero, A.<br />
1818 Fragrance Sex and developmental stage of carob flowers headspace GC-MS<br />
from Carob affects composition of volatiles<br />
flower J Horticultural Sci & Biotechnology, 79, #5, 689-692<br />
Custodio, L.; Nogueira, J. M. F.; Romano, A.<br />
1819 Essential oils <strong>SPME</strong>-GC and olfactory analysis of the scent and headspace GC-FID and GC-MS<br />
from Chinese fixative properties of the essential oil of Rosa<br />
rose oil damascena L. from China<br />
Flavour and Fragrance J, 20, #1, 7-12<br />
Jirovetz, Leopold; Buchbauer, Gerhard; S, A;<br />
Balinova, A.; Guangjiun, Z.; Xihan, Ma<br />
1820 Volatiles from Comparison of odorous volatile compounds from fourteen headspace GC<br />
compost different commercial composts using <strong>SPME</strong>.<br />
Trans. Am. Soc. Agric. Eng., 48, #1, 315-320<br />
Kim, H.; McConnell, L.L.; Millner, P.<br />
1821 Nectar odors Why are some floral nectars scented? headspace GC-MS<br />
from flowers Ecology (Washington D C), 85, #6, 1486-1494<br />
Raguso, Robert A.<br />
1822 Volatiles Quality assessment of Flos Chrysanthemi Indici from 65µm PDMS-DVB GC-M<br />
from China different growing aras in China by <strong>SPME</strong>-GC-MS 30min @ 60°C<br />
medicine J. Chromatogr. A, 1047, #2, 281-287 headspace<br />
Chen, J; Deng, C; Fu, D; Sha, Y; Shen, S Zhang, X<br />
Ambient temperature, unless otherwise indicated. 64
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1823 Volatiles <strong>SPME</strong>-GC-MS analysis of volatile compounds in compounded 100µm PDMS GC-MS<br />
from China Chinese medicinal prescription, Xiao-Cheng-Qi-Tang 20min @ 90°C<br />
medicine Journal of Pharma Biomed Analysis, 36, #2, 381-385 stirring, headspace<br />
Sha, Yunfei; Shen, Shun; Duan, Gengli<br />
1824 Volatiles from Application of HS-<strong>SPME</strong> and GC-MS to characterization of 65µm CW/DVB GC-MS<br />
osmanthus volatile compounds emitted from osmanthus flowers 10 min @ 22°C<br />
flowers Annali di Chimica, 94, #12, 921-927 headspace<br />
Deng, Chunhui; Song, Guoxin; Hu, Yaoming<br />
1825 Odors from An evaluation of <strong>SPME</strong> for analysis of odorant 75µm Carboxen GC-MS<br />
biosolids emissions from stored biosolids cake headspace<br />
Water Res., 38, #17, 3800-3808<br />
Parker, W.J.; Visan, M.<br />
1826 Volatiles from Effects of petroleum spray oils on oviposition behaviour and headspace GC<br />
maize plants larval survival of Helicoverpa armigera Hubner (Lepidoptera :<br />
Pharmaceutical<br />
Noctuidae) and Ostrinia nubilalis Hubner (Lepidoptera:Pyralidae)<br />
Intl J of Pest Mgmt, 51, #2, 111-119<br />
Mensah, Robert; Frerot, Brigitte; Al Dabel, Faiza<br />
147 Volatiles in Application of Head-Space <strong>SPME</strong> for the Analysis of GC-MS<br />
biological fluids Volatile Metabolites<br />
J. Microbiol. Methods 25: 245 (1996)<br />
Milsson, T., Larsen, T., Montanarella, L., Madsen, J.<br />
338 Solvents in Determination of Residual Solvents in Pharmaceuticals 100µm PDMS GC-FID<br />
pharmaceutical with Automated <strong>SPME</strong> 15 min<br />
products Chem. N. Z. 61 (4): 10-12 (1997)<br />
Penton, Z.<br />
headspace<br />
149 Components Analysis of Components in Crude Drugs by Headspace<br />
in drugs <strong>SPME</strong> Method<br />
Zasshi 16: 251 (1996)<br />
Yakugaku<br />
473 Residual solvents Headspace <strong>SPME</strong> method optimization for 65µm DVB/PDMS GC<br />
pharmaceutical residual solvent analysis 30 min headspace<br />
samples Acta pharm. Hung., 1999, 69(2), 77-84<br />
Camarasu, C., Mezei, M., Szabo, A<br />
2gm NaCl,<br />
919 Residual solvents Headspace <strong>SPME</strong> method development for the analysis of<br />
pharmaceutical volatile polar residual solvents by GC-MS<br />
samples J. Pharm. & Biomediecal Aanlysis 2000, 23(1) 197-210<br />
Camarasu, C.<br />
Verapamil drug metabolism studies by automated in-tube solid phase<br />
1002 Verapamil<br />
microextraction. LC-MS<br />
Jnl of Pharmaceutical and Biomedical Analysis (2002) 30 (2), 307-319.<br />
Walles, M.; Mullett, W. M.; Levsen, K.; Borlak, J.; Wuensch, G.; Pawliszyn,<br />
J.<br />
1006 Trends New trends in sample preparation for clinical and pharmaceutical analysis<br />
TrAC-Trends in Analytical Chemistry (2003) 22 (4), 232-244.<br />
Kataoka, Hiroyuki<br />
1024 clenbuterol<br />
Solid-phase micro extraction (<strong>SPME</strong>) and headspace derivatization of<br />
clenbuterol followed by GC-FID and GC-SIMMS quantification. 85 um polyacrylate GC-FID, GC-SIMMS<br />
Analytical and Bioanalytical Chemistry (2003) 375 (3), 460-464.<br />
Wenclawiak, B. W.; Engelmann, M. D.; Hinz, D.<br />
Ambient temperature, unless otherwise indicated. 65
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1032 Review<br />
1101 MPHP in urine<br />
1107 Residual solvents<br />
1133<br />
1142<br />
Residual solvents in<br />
drug products<br />
Volatile residual solvents<br />
in Chinese medicines.<br />
1169 Clenbuterol in urine<br />
1279<br />
Endocrine disruptor<br />
contaminants.<br />
1308 Drug analysis<br />
1312<br />
1336<br />
Pharma process<br />
impurities<br />
Residual solvent testing: A review of gas-chromatographic and alternative<br />
techniques.<br />
Pharmaceutical Research (Dordrecht) (2003) 20 (3), 337-344.<br />
B'Hymer, Clayton<br />
New designer drug 4'-methyl-alpha-pyrrolidinohexanophenone: Studies on<br />
its metabolism and toxicological detection in urine using gas<br />
chromatography-mass spectrometry. GC-MS<br />
Journal of Chromatography B (2003) 789 (1), 79-91.<br />
Maurer, Hans H.; Fritschi, Giselher; Peters, Frank T.; Springer, Dietmar<br />
Use of solid-phase microextraction coupled with gas chromatography for the<br />
determination of residual solvents in pharmaceutical products Various<br />
Journal of Chromatography A (2003) 999 (1-2), 195-201.<br />
Dugay, Jose; Legrand, Stephanie; Vial, Jerome<br />
Unknown residual solvents identification in drug products by headspace<br />
solid phase microextraction gas chromatography-mass spectrometry.<br />
Chromatographia (2002) 56(supplement), S131-S135<br />
Camarasu, C. C.<br />
headspace GC-MS<br />
Determination of volatile residual solvents in traditional Chinese medicines<br />
by headspace solid-phase microextraction and cryogenic gas<br />
chromatography with flame ionization detection PDMS/DVB GC-FID<br />
Journal of AOAC International (2003) 86 (3), 461-466.<br />
Jiang, Guibin; Liu, Jiemin; Liu, Jingfu; Liu, Jiyan; Wen, Meijuan; Zhou,<br />
Qunfang<br />
Quick analysis of small beta -agonists in urine by solid-phase<br />
microextraction with headspace derivatization and gas chromatographymass<br />
spectrometry.<br />
Fenxi Huaxue (2003) 37 (3), 326-328.<br />
Polyacrylate GC-MS<br />
Liang, Y. L.; Yin, B. Z.; Hu, X. Z.*; Yu, J. X.; Liu, H. W.; Lin, Y. F.; Wu, T.<br />
Simple and rapid analysis of endocrine disruptors in liquid medicines and<br />
intravenous injection solutions by automated in-tube solid-phase<br />
microextraction/high performance liquid chromatography. HPLC<br />
Journal of Pharmaceutical and Biomedical Analysis (2003) 32 (3), 469-478.<br />
Mitani, K.; Narimatsu, S.; Izushi, F.; Kataoka, H. *<br />
Solid-phase microextraction and liquid chromatography/mass spectrometry<br />
in drug analysis LC-MS<br />
Analytica Chimica Acta (2003) 492 (1-2), 49-67.<br />
Kumazawa, Takeshi; Lee, Xiao-Pen; Sato, Keizo; Suzuki, Osamu<br />
Determination of pharmaceutical process impurities by solid phase<br />
microextraction gas chromatography Carboxen/PDMS/DVB GC<br />
Journal of Separation Science (2003) 26 (12-13), 1097-1103.<br />
Frost, Richard P.; Hussain, Mumtaz S.; Raghani, Anil R.<br />
Development and evaluation of a solid-phase microextraction probe for in<br />
vivo pharmacokinetic studies polypyrrole<br />
Analytical Chemistry (2003) 75 (19), 5103-5115.<br />
Fahie, Brian; Grant, Russell P.; Incledon, Bev; Lord, Heather L.; Pawliszyn,<br />
Janusz B.; Walles, Markus<br />
1361 Drugs in biological fluids<br />
Automated sample preparation using in-tube solid-phase microextraction<br />
and its applications long dash a review.<br />
Analytical and Bioanalytical Chemistry (2002) 373(1-2), 31-45.<br />
Kataoka, H.<br />
LC-MS<br />
Ambient temperature, unless otherwise indicated. 66
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1392 Drugs in plasma<br />
1470 Amphetamine-like drugs<br />
1497<br />
Residual solvents in<br />
pharmaceuticals<br />
1514 Delorazepam in urine<br />
1201<br />
1280<br />
Application of solid-phase micro-extraction technology to drug screening<br />
and identification.<br />
Annals of Clinical Biochemistry (2001) 38(5), 541-547.<br />
Mosaddegh, M. H.; Richardson, T.; Stoddart, R. W.; McClure, J.<br />
Polyacrylate, carbowax/DVB GC-MS<br />
Simultaneous detection of amphetamine-like drugs with headspace solidphase<br />
microextraction and gas chromatography-mass spectrometry.<br />
Journal of Chromatography B (2002) 780(1), 183-192<br />
Macchia, Teodora; Chiarotti, Marcello; Gentili, Stefano; Marsili, Remo;<br />
Torresi, Alessio<br />
High-speed gas chromatographic analysis of solvents in pharmaceuticals<br />
using solid phase microextraction<br />
Journal of Pharmaceutical and Biomedical Analysis (2002) 29(3), 507-518<br />
Raghani, A. R.<br />
Determination of delorazepam in urine by solid-phase microextraction<br />
coupled to high performance liquid chromatography.<br />
Journal of Pharmaceutical and Biomedical Analysis (2002) 28(5), 965-972<br />
Zambonin, Carlo Giorgio; Aresta, Antonella; Monaci, Linda<br />
Rapid screening of 2-"fluorine-18"-fluoro-2-deoxy-D-glucose infusions for<br />
volatile organic compound contaminants by solid phase microextraction with<br />
gas chromatography-selective ion monitoring mass spectrometry (<strong>SPME</strong>-<br />
GC-SIMMS).<br />
Applied Radiation and Isotopes (2003) 58 (2), 193-200.<br />
Kanu, A. B.; Dixon, M.; Zu, Y. Y.; Bailey, J.; Gillies, J. M.; Zweit, J.; Thomas,<br />
C. L. P.*<br />
50/30um DVB/Carboxen PDMS,<br />
65um PDMS DVB<br />
50um Carbowax TPR, 60um<br />
PDMS DVB<br />
Determination of trace retinoic acid by capillary electrophoresis-solid-phase<br />
microextraction with direct UV detection. CE<br />
Journal of Chromatographic Science (2003), 41 (6), 301-304).<br />
Fang, M.; Xu, G. W.<br />
1827 Pharmaceuticals Study of multiple <strong>SPME</strong> combined off-line w/HPLC 100µm PDMS & HPLC<br />
in urine Application in analysis of pharmaceuticals in urine 85µm polyacrylate<br />
Anal. Chim. Acta, 516, #1-2, 197-204 immersed<br />
Aikaterini Lontou, M.; Gondova, T.; Michopoulos, F.; salt added<br />
Sucha, M.; Theodoridis, G.<br />
Biological<br />
638 Anesthetics Evaluation of <strong>SPME</strong> for the study of protein binding in human 60µm Carbowax/DVB NPD<br />
in plasma plasma samples 32°to 40°C<br />
J. Chromatogr. Sci. (2000), 38(10), 458-464 pH 6.4-9.4<br />
Abdel-Rehim, M., Calsson, G., Bielenstein, M., Arvidsson, T.,<br />
Blomberg, L.<br />
99 Aniline, nitrobenzene, Measurement of the Free Concentration Using <strong>SPME</strong>: 85µm polyacrylate GC-MS<br />
4-n-pentylphenol, Binding to Protein 24°C, 9-14 min<br />
4-chloro-3-methylphenol J. Anal. Chem. 68: 4463-4467 (1996) stirring<br />
in bovine serum albumin Vaes, W., Ramos, E., Verhaar, H., Seinen, W., Hermens, J. K2PO4 buffered<br />
GC-MS<br />
GC<br />
HPLC-UV<br />
140 Protein in Solid Phase Microextraction of Biopolymers, Exemplified 85µm polyacrylate HPLC-UV<br />
bovine serum albumin with Adsorption of Basic Proteins onto a Fiber Coated 5-240 sec<br />
with Polyacrylic Acid<br />
J. Microcolumn Sep. 8: 1 (1996)<br />
Liao, J., Zeng, C., Hjerten, S., Pawliszyn, J.<br />
immersion<br />
Ambient temperature, unless otherwise indicated. 67
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
411 Proteins Optimization of <strong>SPME</strong>-Capillary Zone Electrophoresis-MS for capillary zone<br />
High Sensitivity Protein Identification electrophoresis-<br />
Electrophoresis (1998), 19(13), 2338-2347<br />
Figeys, D., Ahang, Y., Aebersold, R.<br />
Bio-compatible in-tube <strong>SPME</strong> capillary for the direct extraction and HPLC<br />
MS<br />
988 Drugs in human serum determination of drugs in human serum.<br />
J.Chromatogr. A (2002) 963(1-2), 325-334<br />
Mullett, W.M.; Levsen, K.; Lubda, D.; Pawliszyn, J.<br />
HPLC<br />
1020 Rapid diagnosis of GI infection from flatus.<br />
Gut (2003) 52 (Supplement 1), A93.<br />
Probert, C. S.; Jones, P.; Ratcliffe, N.<br />
1036 Semi-volatiles in saliva<br />
1037 Amphetamines in hair.<br />
1038 Volatiles in breath<br />
1056<br />
Pheromones from male<br />
bugs.<br />
1057 Review article<br />
1076 Organophosphorus<br />
pesticides in blood<br />
1060<br />
Phthalic monoesters in<br />
urine.<br />
1104 PAHs in urine.<br />
Solid-phase micro-extraction-gas chromatography-mass spectrometry and<br />
headspace-gas chromatography of tetrahydrocannabinol, amphetamine,<br />
methamphetamine, cocaine and ethanol in saliva samples PDMS GC-MS<br />
Journal of Chromatography B: Analytical Technologies in the Biomedical<br />
and Life Sciences (2003) 789 (1), 73-78.<br />
Alves Silva, Ovandir; De Moraes Moreau, Regina Lucia; Tawil, Nadia;<br />
Yonamine, Mauricio<br />
Determination of amphetamines in human urine by headspace solid-phase<br />
microextraction and gas chromatography 100 um PDMS GC-FID<br />
Journal of Chromatography B: Analytical Technologies in the Biomedical<br />
and Life Sciences (2003) 789 (1), 59-63.<br />
Christopoulou, Klio; Psaroulis, Dimitrios; Raikos, Nikolaos; Theodoridis,<br />
Georgios; Tsoukali, Heleni<br />
Application of low-temperature glassy carbon-coated macrofibers for solidphase<br />
microextraction analysis of simulated breath volatiles PDMS-DVB<br />
Analytical Chemistry (2003) 75 (7), 1604-1614.<br />
Giardina, Matthew; Olesik, Susan V.<br />
Male bugs modulate pheromone emission in response to vibratory signals<br />
from conspecifics.<br />
Journal of Chemical Ecology (2003) 29 (3), 561-574.<br />
Renou, Michel; Lasnier, Therese; Miklas, Nadege<br />
New developments and applications of solvent-free sampling and sample<br />
preparation technologies for the investigation of living systems LC-MS<br />
Australian Journal of Chemistry (2003) 56 (2-3), 155-158.<br />
Pawliszyn, Janusz<br />
Simple determination of 22 organophosphorus pesticides in human blood<br />
using headspace solid-phase microextraction and gas chromatography with<br />
mass spectrometric detection.<br />
Journal of Chromatographic Science (2002) 40(1), 29-34<br />
Musshoff, F.; Junker, H.; Madea, B.<br />
GC-MS<br />
Determination of phthalic monoesters in aqueous and urine samples by<br />
solid-phase microextraction-diazomethane on-fibre derivatization-gas<br />
chromatography-mass spectrometry. PDMS-DVB GC-MS<br />
Journal of Separation Science (2003) 26 (1-2), 87-96.<br />
Alzaga, R.; Pena, A.; Bayona, J. M.*<br />
25 C, 20 minutes, headspace<br />
Determination of polycyclic aromatic hydrocarbons in urine of coke oven<br />
workers by headspace solid phase microextraction and gas chromatographymass<br />
spectrometry. GC-MS<br />
Chemico-Biological Interactions (2003) 145 (2), 165-174.<br />
Rappaport, Stephen M.; Waidyanatha, Suramya; Zheng, Yuxin<br />
Ambient temperature, unless otherwise indicated. 68
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1158 1,8-cineole in blood<br />
1162 Fatty acid esters in hair.<br />
1163<br />
1205 Busulphan in plasma<br />
1207<br />
Midazolam in human<br />
plasma<br />
1261 Elephant urine<br />
1262 Pheromones in urine.<br />
Application of solid-phase microextraction to the quantitative analysis of 1,8cineole<br />
in blood and expired air in a Eucalyptus herbivore, the brushtail<br />
possum ( Trichosurus vulpecula ). GC<br />
Journal of Chromatography, B: Analytical Technologies in the Biomedical<br />
and Life Sciences (2002) 780 (2), 397-406.<br />
Boyle, R. R.; McLean, S.; Brandon, S.; Pass, G. J.; Davies, N. W.<br />
Fatty acid ethyl esters in neonatal hair: A possible biomarker for in utero<br />
ethanol exposure.<br />
Alcoholism Clinical and Experimental Research (2003) 27 (5 supp), 39A.<br />
Koren, G.; Klein, J.; Caprara, D.<br />
Headspace solid-phase microextraction (<strong>SPME</strong>) and gas chromatographymass<br />
spectrometry (GC-MS) for the determination of 5alpha-androst-2-en-<br />
17-one and -17beta-ol in the female Asian elephant: Application for<br />
reproductive monitoring and prediction of parturition. GC-MS<br />
Journal of Steroid Biochemistry and Molecular Biology (2003) 84 (2-3), 383-<br />
391.<br />
Dehnhard, M.; Eulenberger, K.; Hatt, J.-M.; Ochs, A.; Strauss, G.<br />
On-line derivatization utilizing solid-phase microextraction (<strong>SPME</strong>) for<br />
determination of busulphan in plasma using gas chromatography-mass<br />
spectrometry (GC-MS).<br />
Therapeutic Drug Monitoring (2003) 25 (3), 400-406.<br />
Abdel-Rehim, Mohamed; Blomberg, Lars; Hassan, Moustapha; Hassan,<br />
Zuzana<br />
Carbowax/DVB GC<br />
Determination of midazolam in human plasma by solid-phase<br />
microextraction and gas chromatography/mass spectrometry.<br />
Rapid Communications in Mass Spectrometry (2001) 15(24), 2497-2501<br />
Davide Ferrara, Santo; Frison, Giampietro; Maietti, Sergio; Tedeschi,<br />
Luciano<br />
Use of <strong>SPME</strong> and GC-MS for chemical analysis of urine from African<br />
elephants in musth.<br />
Abstracts of Papers American Chemical Society (2003) 225 (1-2), CHED<br />
614.<br />
Hicks, Adam R.; Goodwin, Thomas E.; Dill, Whitney M.; Davis, Ben L.;<br />
Alberts, Susan C.; Hollister-Smith, Julie<br />
Chemical analysis of preovulatory female African elephant urine: A search<br />
for putative pheromones.<br />
Abstracts of Papers American Chemical Society (2003) 225 (1-2), CHED<br />
409.<br />
Hicks, Adam R.; Goodwin, Thomas E.; Dill, Whitney M.; Davis, Ben L.; Loizi,<br />
Helen; Rasmussen, L. E. L.; Schulte, Bruce A.<br />
85um Polyacrylate GC-MS<br />
1301<br />
Analysis of odours in human armpit by GC-MS with headspace solid-phase<br />
Odours in human armpit. microextraction.<br />
Fenxi Ceshi Xuebao (2003) 22 (4), 21-24.<br />
Wu, D. H.; Xu, H. K.; Wang, Z. P.; Zhang, L.; Wang, X. L.*<br />
70 um DVB/carbowax GC-MS<br />
1310<br />
Amitraz in canine<br />
plasma.<br />
Determination of amitraz in canine plasma by solid-phase microextractiongas<br />
chromatography with thermionic specific detection PDMS GC-TSD<br />
Journal of Chromatography B: Analytical Technologies in the Biomedical<br />
and Life Sciences (2003) 794 (2), 337-342.<br />
Carvalho, D.; Farias, A.; Lancas, F.M.; Queiroz, M.E.C.; Valadao, C.A.A.<br />
1344 VOC's in exhaled breath<br />
Application of solid-phase microextraction and gas chromatography-mass<br />
spectrometry to the determination of volatile organic compounds in endexhaled<br />
breath samples.<br />
Journal of Chromatography, A (2003) 1011 (1-2), 125-134.<br />
Prado, C.; Marin, P.; Periago, J. F.<br />
GC-MS<br />
Ambient temperature, unless otherwise indicated. 69
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1346 Pheromones in ants.<br />
1359 Volatile aldehydes<br />
1360 VOCs in body fluids<br />
1365 Hydrocarbons in cuticles<br />
1375<br />
1380<br />
p,p'-DDE in biological<br />
samples<br />
Perfluorocarbons in<br />
blood.<br />
1396 Ropivacaine in plasma<br />
1413<br />
1225<br />
Naltrexone, 6,betanaltrexol<br />
1159 Phthalates from toys<br />
1210<br />
Volatile fatty acids in<br />
rumen.<br />
Investigation by solid-phase microextraction and gas chromatography/mass<br />
spectrometry of trail pheromones in ants. GC-MS<br />
Rapid Communications in Mass Spectrometry (2003) 17 (18), 2071-2074.<br />
di Tullio, A.; de Angelis, F. *; Reale, S.; Grasso, D. A.; Visicchio, R.;<br />
Castracani, C.; , A.; le Moli, F.<br />
<strong>SPME</strong> determination of volatile aldehydes for evaluation of in-vitro<br />
antioxidant activity. GC-MS<br />
Analytical and Bioanalytical Chemistry (2002) 373(1-2), 70-74.<br />
Stashenko, E. E.; Puertas, M. A.; Martinez, J. R.<br />
Cryogenic oven-trapping gas chromatography for analysis of volatile organic<br />
compounds in body fluids. GC-MS<br />
Analytical and Bioanalytical Chemistry (2002) 373(1-2), 75-80.<br />
Watanabe-Suzuki, K.; Ishii, A.; Suzuki, O.<br />
Solid-phase microextraction for the detection of termite cuticular<br />
hydrocarbons. GC-MS<br />
Journal of Chromatography, A (2001) 932(1-2), 119-127.<br />
Bland, J. M.; Osbrink, W. L. A.; Cornelius, M. L.; Lax, A. R.; Vigo, C. B.<br />
Solid-phase microextraction and GC-MS analysis of p, p' -DDE in biological<br />
samples. PDMS GC-MS<br />
Journal of Chromatography, B: Biomedical <strong>Applications</strong> (2001) 761(1), 93-<br />
98.<br />
Kusakabe, T.; Saito, T. *; Takeichi, S.<br />
Detection of perfluorocarbons in blood by headspace solid-phase<br />
microextraction combined with gas chromatography-mass spectrometry. GC-MS<br />
Biomedical Chromatography (2001) 15(7), 443-451.<br />
Mathurin, J. -C.; de Ceaurriz, J.; Audran, M.; Krafft, M. -P.<br />
Determination of ropivacaine and its metabolites in human plasma using<br />
solid phase microextraction and GC-NPD/GC-MS. Various Gc-MS<br />
Journal of Microcolumn Separations (2001) 13(8), 313-321.<br />
Abdel-Rehim, M.; Andersson, M.; Portelius, E.; Norsten-Hoog, C.;<br />
Blomberg, L. G.<br />
Quantification of naltrexone and 6,beta-naltrexol in plasma and milk using<br />
gas chromatography-mass spectrometry. Application to studies in the<br />
lactating sheep. GC-MS<br />
Journal of Chromatography B (2001) 761(1), 85-92.<br />
Ilett, Kenneth F.; Bencini, Roberta; Chan, Chooi Fen; Chiswell, Gregory M.;<br />
Dusci, Leon J.; Hackett, L. Peter<br />
Monitoring and fast detection of mycotoxin-producing fungi based on<br />
headspace solid-phase microextraction and headspace sorptive extraction<br />
of the volatile metabolites. GC-MS<br />
Journal of Chromatography, A (2003) 985 (1-2), 127-135.<br />
Demyttenaere, J. C. R.; Morina, R. M.; Sandra, P.<br />
Determination of bis(2-ethylhexyl) phthalate of plastic toys leached in<br />
stimulant saliva by gas chromatography with solid-phase microextraction<br />
Fenxi Ceshi Xuebao (2003) 22 (2), 34-36.<br />
PDMS-fullerene GC<br />
Yang, Z. J.; Zhang, W. Y.; Pan, K. Y.; Yu, J. X.; Wu, C. Y.; Wang, C. Y.<br />
Characterizing volatile fatty acids and other gases in a rumen closed in vitro<br />
fermentation system using solid phase microextraction<br />
Transactions of the American Society of Agricultural Engineers (2003) 46<br />
(2), 585-588.<br />
Chirase, Norbert K.; Koziel, Jacek A.; Spinhirne, Jarett P.<br />
DVB/Carboxen/PDMS GC-MS<br />
Ambient temperature, unless otherwise indicated. 70
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1412 Volatile hydrocarbons<br />
1311<br />
1443 Organochlorine<br />
pesticides in fish<br />
1456<br />
1468<br />
1485<br />
1487<br />
1503<br />
1506<br />
Pheremones in mouse<br />
urine<br />
Sufentanil in human<br />
plasma<br />
Volatiles in live<br />
biological samples<br />
Pheremones from<br />
Lepidoptera<br />
Organic compounds in<br />
elephant urine<br />
C9-C20 hydrocarbons in<br />
shellfish<br />
Volatile hydrocarbon biodegradation by a mixed-bacterial culture during<br />
growth on crude oil.<br />
Journal of Industrial Microbiology & Biotechnology (2001) 26(6), 356-362.<br />
Van Hamme, J. D.; Ward, O. P<br />
Production of flavoured volatile organic compounds (VOCs) by Candida<br />
oleophila GK10: Optimisation using factorial design and response surface<br />
analysis GC-MS<br />
Enzyme and Microbial Technology (2003) 33 (5), 668-675.<br />
Buzzini, Pietro; Davoli, Paolo; Martini, Alessandro; Pagnoni, Ugo Maria<br />
Solid-phase microextraction as a clean-up and preconcentration procedure<br />
for organochlorine pesticides determination in fish tissue by gas<br />
chromatography with electron capture detection<br />
Journal of Chromatography A (2003) 1017(1-2), 35-44<br />
Blanco-Gonzalez, Elisa; Centineo, Giuseppe; Fidalgo-Used, Natalia; Sanz-<br />
Medel, Alfredo<br />
Identification of pheromones in mouse urine by head-space solid phase<br />
microextraction followed by gas chromatography-mass spectrometry.<br />
Journal of Chromatography B (2003) 796(1), 55-62<br />
Kayali-Sayadi, M. N.; Bautista, Jose M.; Polo-Diez, L. M.; Salazar, Ignacio<br />
Solid-phase microextraction of human plasma samples for determination of<br />
sufentanil by gas chromatography-mass spectrometry.<br />
Therapeutic Drug Monitoring (2002) 24(6), 768-774<br />
Boulieu, Roselyne; Bolon, Magali; Dufresne, Christelle; Paradis, Chantal<br />
<strong>Applications</strong> of solid-phase microextraction to chemical analysis of live<br />
biological samples.<br />
Trends in Analytical Chemistry (2002) 21(6-7), 428-438<br />
Augusto, Fabio; Valente, Antonio Luiz Pires<br />
Lepidoptera (Sesamia nonagrioides (Lefebvre) (Lepidoptera Noctuidae)) by<br />
solid-phase microextraction<br />
Redia (2001) 84, 7-18<br />
Rotundo, Giuseppe; Germinara, Giacinto Salvatore; De Cristofaro, Antonio<br />
Implementation of <strong>SPME</strong> and GC-MS to identify organic compounds in<br />
African elephant urine.<br />
Abstracts of Papers American Chemical Society (2002) 223(1-2), CHED<br />
234<br />
dwin, Thomas E.; Dowdy, Nichole C.; Rasmussen, L. E. L.<br />
Determination of petroleum contamination in shellfish using solid phase<br />
micro-extraction with gas chromatography-mass spectrometry.<br />
Analytical and Bioanalytical Chemistry (2002) 373(3), 147-152<br />
Stack, Mary A.; James, Kevin J.; O'Connell, Sharon<br />
GC-ECD<br />
85um Carboxen PDMS GC-MS<br />
65um PDMS DVB, 10mins,<br />
immersion<br />
100um PDMS, 20mins, 120<br />
degrees C, headspace<br />
GC-MS<br />
GC-MS<br />
100um PDMS GC-MS<br />
1519 Thymol in humans Systemic availability and pharmacokinetics of thymol in humans. LC-MS-MS<br />
Journal of Clinical Pharmacology (2002) 42(7) 731-737<br />
1529 Ethanol in blood<br />
Veit, Markus; Abel, Gudrun; Brinkhaus, Benno; Derendorf, Hartmut; Graefe,<br />
Eva-Ulrike; Kohlert, Claudia; Maerz, Reinhard W.; Schindler, Gernot<br />
Optimization of solid-phase microextraction conditions for gas<br />
chromatographic determination of ethanol and other volatile compounds in<br />
blood.<br />
Journal of Chromatography B (2002) 773(1), 75-82<br />
Zuba, Dariusz; Parczewski, Andrzej; Reichenbacher, Manfred<br />
Ambient temperature, unless otherwise indicated. 71<br />
65um Carbowax DVB, 60<br />
degrees C, 10mins, stirring,<br />
NaCl addtion, headspace<br />
GC-FID
1532<br />
1533<br />
1540<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2-chlorovinylarsonous<br />
acid in human urine<br />
Fluoroacetic acid in<br />
biological samples<br />
Quantitation of 2-chlorovinylarsonous acid in human urine by automated<br />
solid-phase microextraction-gas chromatography-mass spectrometry.<br />
Journal of Chromatography B (2002) 772(1), 147-153<br />
Calafat, Antonia M.; Ashley, David L.; Wooten, Joe V.<br />
Headspace solid-phase microextraction with 1-pyrenyldiazomethane onfibre<br />
derivatization for analysis of fluoroacetic acid in biological samples.<br />
Journal of Chromatography B (2002) 772(1), 45-51<br />
Pragst, Fritz; Huebner, Sandra; Mills, Graham; Sporkert, Frank<br />
carbamazepine,<br />
carbamazepine epoxide,<br />
Determination of lamotrigine simultaneously with carbamazepine,<br />
phenytoin,<br />
carbamazepine epoxide, phenytoin, phenobarbital, and primidone in human<br />
phenobarbital, and<br />
plasma by <strong>SPME</strong>-GC-TSD.<br />
primidone in human<br />
plasma<br />
1427 Microcystins<br />
Journal of Chromatographic Science (2002) 40(4), 219-223<br />
Lancas, F. M.; Carvalho, D.; Queiroz, M. E. C.; Silva, S. M.<br />
85um Carboxen PDMS<br />
Stableflex, on-fiber<br />
derivatization with<br />
1-pyrenyldiazomethane<br />
GC-MS<br />
Determination of microcystins in cyanobacterial blooms by solid-phase<br />
microextraction : High-performance liquid chromatography. HPLC<br />
Environmental Toxicology and Chemistry (2001) 20(8), 1648-1655.<br />
Lam, Michael Hon-wah; Lam, Paul K. S.; Poon, Ka-Fai; Wong, Bryan S. F.<br />
1828 Drugs in Rapid screening procedure based on headspace Headspace, GC-MS<br />
hair <strong>SPME</strong>-GC-MS for the detection of many 5min @ 90°C<br />
recreational drugs in hair.<br />
J. Chromatogr. B, 801, #2, 289-296<br />
Gentili, S.; Cornetta, M.; Macchia, T. *<br />
1829 Parabens in Determination of parabens in pharmaceutical formulations by GC-IMS<br />
pharmaceutics <strong>SPME</strong> ion-mobility spectrometry<br />
Anal. Chem., 77, #18, 5938-5946<br />
Lokhnauth, John; Snow, Nicholas<br />
1830 Amphetamine Simultaneous derivatization and extraction of amphetamine-like 100µm PDMS GC-MS<br />
drugs in drugs in urine with headspace <strong>SPME</strong> followed by GC-MS 30min @ 90°C<br />
urine Anal. Chim. Acta, 539, #1-2, 49-54 HFBA derivative<br />
Chia, Kan-Jung; Huang, Shang-Da headspace<br />
1831 Amphetamine Poly(methacrylic acid-ethylene glycol dimethacrylate) polycrylate coated HPLC-UV<br />
drugs in monolith in-tube <strong>SPME</strong> coupled to HPLC and analysis of capillary tube<br />
urine amphetamines in urine samples<br />
J. Chromatogr. A, 1074, #1-2, 9-16<br />
Da, Shi-Lu; Fan, Yi; Feng, Yu-Qi; Zhang, J; Zhang, M<br />
1832 Amphetamine Application of <strong>SPME</strong> combined with derivatization to 50µm CW-TPR HPLC-UV<br />
drugs in the determination of amphetamines by liquid chromatog FMOC derivative<br />
urine Analytical Biochemistry, 333, #2, 328-335<br />
Chafer-Pericas, C.; Campins-Falco, P.; Herraez-Hernandez, R.<br />
1833 Amphetamine Enantiomeric determination of amphetamines: Exploring 100µm PDMS GC-SIM-MS<br />
drugs in A novel one-step <strong>SPME</strong>-based approach 10min @ 70°C<br />
urine J. Chromatogr. B, 825, #1, 79-87 prolyl chloride<br />
Wang, Sheng-Meng derivative<br />
1834 Amphetamine <strong>SPME</strong> with LC-electrospray ionization-tandem MS LC-ESI-MS/MS<br />
in serum for analysis of amphetamine and methamphetamine in serum<br />
Anal. Chim. Acta, 538, #1-2, 49-56<br />
Chou, Chi-Chi; Lee, Maw-Rong<br />
1835 BTX solvents Quantitative analysis of benzene, toluene, headspace GC-MS<br />
in urine and xylenes in urine by headspace <strong>SPME</strong><br />
J Chromatogr A, 1027, #1-2, 37-40<br />
Alkalde, T; Peralba, M; Zini, C; Caramao, E.<br />
Ambient temperature, unless otherwise indicated. 72
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1836 PCB metabolite <strong>SPME</strong> w/ on-fiber derivatization for the determination of 65µm PDMS-DVB GC/MS<br />
in urine hydroxy-polychlorinated biphenyl compounds in urine 60min @ 90°C<br />
Anal. Chim. Acta, 539, #1-2 55-60 BSTFA derivative<br />
Hong, Jee Eun; Lee, Won; Park, Song-Ja; Pyo, Heesoo headspace<br />
1837 Iodine in Single drop microextraction or <strong>SPME</strong>-GC-MS iodate derivatives GC<br />
various for the determination of iodine in pharmaceuticals,<br />
matrices iodized salt, mil powder and vegetables<br />
involving conversion into 4-iodo-N,N-dimethylaniline.<br />
J Chromatogr A, 1023, #1, 33-39<br />
Das, P; Gupta, M; Jain, A; Verma, K.<br />
1838 Diazipenes in Monitoring of drugs and metabolites in whole blood restricted access LC-MS<br />
biological fluid by restricted-access <strong>SPME</strong> coupled to LC-MS coated fibers<br />
J Chromatogr A, 1025, #1, 85-92 headspace<br />
Walles, M.; Mullett, W. M.; Pawliszyn, J.<br />
1839 Methyl An accurate and sensitive method for determination 100µm PDMS ICP-MS<br />
mercury from methylmercury in biological specimens methyl, ethyl, phenyl<br />
biological using GC-ICP-MS with solid phase microextraction derivatives<br />
specimens J Anal At Spectrom, 19, #12, 1546-1551 microwave extraction<br />
Christopher, S.J.; Davis, W. Clay; Day, Rusty D.;<br />
Long, S.E.; Schantz, Michele M.; Vander Pol, Stacy S.<br />
1840 Volatiles in Sampling and analysis of volatile organic compounds 50/30µm DVB/CAR GC-MS<br />
bovine breath in bovine breath by <strong>SPME</strong>-GC-MS 15min @ 22°C<br />
J Chromatogr A, 1025, #1, 63-69 headspace<br />
Spinhirne, J.; Koziel, J.; Chirase, N.<br />
1841 Phlated esters High-throughput analysis of phthalate esters in 85µm polyacrylate GC-MS<br />
in serum human serum by direct immersion <strong>SPME</strong> followed direct immersion<br />
by isotope dilution-fast GC/MS<br />
Anal. Bioanal. Chem., 380,#2, 275-283<br />
Colon, Ivelisse; Dimandja, Jean-Marie D.<br />
1842 Ligustilides Development of pressurized hot water extraction headspace GC-MS<br />
in Chinese followed by headspace <strong>SPME</strong>-GC-MS determination<br />
medicines ligustilides in Ligusticum chuanxiong and Angelica sinensis<br />
J. Sep. Sci., 28, #11, 1237-1243<br />
Deng, Chunhui; Ji, Jie; Wang, Xiaochuan; Zhang, X<br />
1843 Benzene Urinary benzene determination by <strong>SPME</strong>/GC-MS: 1 min @ 15°C GC-MS<br />
from urine A study of variables by fractional factorial headspace<br />
design and response surface methodology<br />
J. Chromatogr. B, 804, #2, 255-261<br />
Garrido, J.; Periago, J.F.; Prado, C.<br />
1844 Faty Acids in Rapid measurement of C13-enrichment of acetic, propionic 75µm Carboxen GC-MS<br />
plasma and butyric acids in plasma with <strong>SPME</strong> coupled to GC-MS 5min extract<br />
Anal. Chim. Acta, 512, #2, 305-310 headspace<br />
Champ, M.; Delepee, R.; Dumon, H.; LeBizec, B.;<br />
Martin, L.; Maume, D.; Moreau, N.; Nguyen,P<br />
1845 Monoterpenes cDNA isolation and functional expression of myrcene GC<br />
from Perilla synthase from Perilla frutescens<br />
frutescens Biological & Pharmaceutical Bulletin, 27, #12, 1979-1985<br />
Hosoi, Madoka; Ito, Michiho; Yagura, Toru;<br />
Adams, Robert Phillip; Honda, Gisho<br />
1846 Acetone in Rapid determination of acetone in human plasma 65µm PDMS-DVB GC-MS<br />
plasma by GC-MS and <strong>SPME</strong> with on-fiber derivatization PFBHA derivative<br />
J. Chromatogr. B, 805, #2, 235-240<br />
Deng, Chunhui; Zhang, Jie; Zhang, Wei; Zhang, Xiangmin<br />
1847 Amino acids Rapid determination of amino acids in neonatal blood headspace GC-MS<br />
in blood samples based on derivatization with isobutyl chloroformate<br />
chloroformated followed by <strong>SPME</strong>-GC-MS derivative<br />
Rapid Communications in Mass Spec, 18, #21, 2558-2564<br />
Deng, C. H.; Li, N.; Zhang, X. M.*<br />
Ambient temperature, unless otherwise indicated. 73
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1848 Trimethylamine Quantifying trimethylamine and trimethylamine- N -oxide GC<br />
in plasma in human plasma: interference from endogenous quaternary<br />
endogenous quaternary ammonium compounds.<br />
Analytical Biochemistry, 334, #2, 403-405<br />
Bain, M. A.; Faull, R.; Fornasini, G.; Milne, R. W.;<br />
Schumann, R.; Evans, A. M.<br />
1849 Anigotensin Fast assay of angiotensin 1 from whole blood by alkyl diol silica coating HPLC<br />
from blood cation-exchange restricted-access <strong>SPME</strong> immersed sampling LC-MS<br />
Anal. Chim. Acta, 537, #1-2, 231-237<br />
Musteata, F.; Pawliszyn, Janusz; Walles, M.<br />
1850 Fatty acid Concentration of fatty acid ethyl esters in hair of Headspace GC-MS<br />
ethyl esters alcoholics: Comparison to other biological Ethyl ester derivatives<br />
in hair state markers and self reported-ethanol intake.<br />
Alcohol and Alcoholism, 39, #1, 33-38<br />
Wurst, F.; Alexson, S.; Wolfersdorf, M.; Bechtel, G;<br />
Forster, S.' Alling.C.; Aradottir, S.; Jachau, K.; Huber, P.;<br />
Allen, J.; Auwaerter, V.; Pragst, F.<br />
1851 Fatty acid Comparison of ethyl glucuronide and fatty acid ethyl ester Headspace GC-MS/NCI<br />
ethyl esters concentrations in hair of alcoholics, social drinkers, Ethyl ester derivatives<br />
in hair and teetotallers<br />
Forensic Science Intl,145, #2-3, 167-173<br />
Yegles, M.; Labarthe, A.; Auwarter, V.; Hartwig, S.; Vater, H.;<br />
Wennig, R.; Pragst, F.<br />
1852 Anti- <strong>SPME</strong> with on-fiber derivatization for the analysis 85µm polyacrylate GC-MS<br />
inflamatory of anti-inflammatory drugs in water samples. MTBSTFA derivative<br />
drugs in J Chromatogr A, 1024, #1-2, 1-8 Headspace<br />
water Rodriguez, I.; Carpinteiro, J.; Quintana, J. B.; .<br />
Carro, A. M.; Lorenzo, R. A.; Cela, R<br />
1853 Fluoroacet- Application of <strong>SPME</strong>-GC-MS in analysis of poison LC-MS<br />
amide in body Zhipu Xuebao, 25, Suppl, 151-152<br />
fluids Cai, X. L.; Wu, G. P.<br />
1854 Fluoroacet- Fast detection of fluoroacetamide in body fluid 100µm PDMS GC-MS<br />
amide in body using GC-MS after <strong>SPME</strong>. 25min @ 70°C<br />
fluids J Chromatogr, B:802, #2, 239-245 immersed<br />
Cai, X.; Zhang, D.; Ju, H. X.; Wu, G.; Liu, X.<br />
1855 Trichloro- Sensitive methods for trace level analysis of headspace @ 55°C GC-MS<br />
ethylene in trichloroethylene (TCE) in rat blood and tissues.<br />
blood/tissues Proc. 50th ASMS Conf. Mass Spectrom. Allied Top.<br />
2002, p629-630<br />
Bartlett, Michael G.; Brown, Stacy D.; Bruckner, James V.;<br />
Dixon, Amy M.; Muralidhara, S.<br />
1856 Benzodiaze- Analysis of benzodiazepines from whole blood 50µm CW-TPR LC-MS-MS<br />
pines in by <strong>SPME</strong> coupled to LC-MS-MS<br />
whole blood Proc. 50th ASMS Conf. Mass Spectrom. Allied Top.<br />
2002, p513-514<br />
Grant, R; Incledon, B; Lord, H; Pawliszyn, Janusz<br />
1857 Benzene in Application of the standard addition approach for the headsapce GC-MS<br />
urine quantification of urinary benzene<br />
J. Chromatogr. B, 818, #2, 293-299<br />
Acampora, A.; Basilicata, P.; Miraglia, N;<br />
Pieri, M.; Sannolo, N.; Soleo, L.<br />
1858 Cresols in Determination of urinary ortho- and meta-cresol in 100µm PDMS GC-MS<br />
urine humans by headspace <strong>SPME</strong>-GC-MS headsapce<br />
J. Chromatogr. B, 817, #2, 309-317<br />
Campo, L.; Foa, V.; Fustinoni, S.; Mercadante, R.;<br />
Scibetta, L.; Valla, C.<br />
1859 Ibuprofen <strong>SPME</strong> and chiral HPLC analysis of ibuprofen in urine 65µm PDMS- DVB HPLC-UV<br />
in urine J. Chromatogr.B, 818, #2, 285-291 immersion sampling<br />
Bonato, P.; Cesarino, E.; De Oliveira, A.<br />
Ambient temperature, unless otherwise indicated. 74
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1860 Ibuprofen Stereoselective determination of the major ibuprofen 50µm CW-TPR HPLC<br />
metabolites metabolites in human usrine by off-linecoupling <strong>SPME</strong>-HPLC immersion sampling<br />
in urine Anal. Chim. Acta, 538, #1, 25-34<br />
De Oliveira, A;, DeSantana, Fo; Bonato, P<br />
1861 Barbiturates Simultaneous determination of barbiturates in human immersion sampling GC-MS<br />
in blood/urine biological fluids by direct immersion <strong>SPME</strong> and GC-MS salt added<br />
J. Chromatogr. B, 806, #1, 65-73<br />
Arinobu, T.; Hattori, H.; Ishii, A.; Iwai, M.; Suzuki, O.;<br />
Kumazawa, T., Noguchi, H., Noguchi, H.; Seno, H.<br />
1862 Acrolein in Monitoring of urinary acrolein concentration in headsapce GC-MS<br />
urine patients receiving cyclophosphamide and ifosphamide<br />
J. Chromatogr. B, 806, #1, 59-63<br />
Namera, A.; Sakura, N.; Takamoto, S.; Yashiki, M.<br />
1863 Rivastigmine Headspace <strong>SPME</strong> and capillary GC-MS determination 65µm PDMS/DVB GC-MS<br />
in plasma of rivastigmine in canine plasma samples 30min @ 100°C<br />
J. Chromatogr. B, 806, #2, 271-276 headspace<br />
Deng, Chunhui; Duan, Gengli; Huang, Taomin; Liu, Zhen; NaOH/NaCO 3 buffer<br />
Sha, Yunfei; Yang, Bei<br />
1864 Mycophnolic Determination of the immunosuppressant mycophenolic 50µm CW-TPR HPLC-UV<br />
acid in serum acid in human seum by <strong>SPME</strong> coupled to LC headspace<br />
J. Chromatogr. B, 806, #2, 89-93<br />
Aresta, A; Palmisano, F; Zambonin, C<br />
1865 JP-8 fuel on Dose related absorption of JP-8 jet fuel GC-FID<br />
porcine skin hydrocarbons through porcine skin w/ quantitative<br />
structure permeability relationship analysis<br />
Toxic Mechanisms & Methods 14, #3, 159-166<br />
Muhammad, F.; Baynes, R.; Monteiro-Riviere, N.;<br />
Xia, X.; Riviere, J.<br />
1866 Volatiles in GC-MS analysis of volatile compounds from 100µm PDMS GC-MS<br />
Houttuynia Houttuynia cor-data Thunb after extraction by <strong>SPME</strong>, headspace<br />
cordata thunb flash evaporation and steam distillation<br />
Analytica Chimica Acta, 531, #1,07-104<br />
Liang, M; Qi, M; Zhang, C; Zhou, S; Fu, R; Huang, J<br />
1867 Serotonin Rapid screening of selective serotonin re-uptake 65µm PDMS-DVB GC-MS<br />
in urine inhibitors in urine samples using <strong>SPME</strong>-GC-MS in-situ derivatization<br />
Anal. Bioanal. Chem., 382, #6, 1351-1359 30min analysis<br />
Cela, R.; Garcia-Jares, Carmen; Lamas, J.;<br />
Llompart, M.; Salgado-Petinal, C.<br />
1868 Chlorinated Determination of dichloromethane, trichloroethylene and 75µm Carboxen GC-MS<br />
hydrocarbons perchloroethylene in urine samples by HD-<strong>SPME</strong>-GC-MS 22°C, saturated salt<br />
in urine J. Chromatogr. B, 820, #1, 95-102 headspace<br />
Andreoli, R; Franchini, I; Manini, P; Mutti, A; Poli, D agitated<br />
1869 Organo- <strong>SPME</strong>-GC analysis of organophosphorus pesticides headspace GC-NPD<br />
phosphorus in biological samples<br />
pesticides in J. Chromatogr. B,822, #1-2, 194-200<br />
blood, urine Grigoratou, I; Raikos, N; Theodoridis, G; Tsoukali, H<br />
1870 Tramadol Rapid determination of tramadol in human plasma by 65µm PDMS-DVB GC/MS<br />
in plasma headspace <strong>SPME</strong> and capillary GC-MS 30min @ 100°C<br />
J Pharma and Biomed Analysis, 37, #1, 143-147 0.1 M NaOH<br />
Sha, Y. F.; Shen, S.; Duan, G. L. headspace<br />
1871 Cancer Investigation of volatile biomarkers in lung cancer headspace GC/MS<br />
Biomakers blood using <strong>SPME</strong> and capillary GC-MS<br />
in blood J. Chromatogr. B, 808, #2, 269-277<br />
Deng, Chunhui; Li, Ning; Zhang, Xiangmin<br />
Ambient temperature, unless otherwise indicated. 75
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1872 Cancer A study of an electronic nose for detection of lung headspace GC/MS<br />
Biomakers cancer based on a virtual SAW gas sensorsarray<br />
in blood and imaging recognition method<br />
Meas. Sci. Technol., 16, #8, 1535-1546<br />
Cao, M.; Chen, X.; Hu, W.; Li, Yi.;<br />
Pan, H.; Wang, P.; Ying, K.<br />
1873 Trichloro- Optimization of <strong>SPME</strong> for analysis of trichloroethylene in rat headspace GC/MS<br />
ethylene in blood and tissues by <strong>SPME</strong>-GC/MS 5 min<br />
rat blood Instrum Sci Technol, 33, #2, 175-186<br />
Bartlett, M.; Brown, S.; Bruckner, J.; Dixon, A.;<br />
Muralidhara, S.<br />
1874 Fatty Rapid measurement of 13 C-enrichment of acetic, 75µm Carboxen GC-MS<br />
acids in propionic, and butyric acids in plasma w/ <strong>SPME</strong> 5 min extract<br />
plasma coupled to GC-MS<br />
Analytica Chimica Acta, 512, #2, 305-310<br />
Moreau, N. M.; Delepee, R.; Maume, D.; le Bizec, B.;<br />
Nguyen, P..; Champ, M..; Martin, L..;Dumon, H.<br />
1875 Animal testing Toward more useful in vitro toxicity data with measured in-vitro sampling GC<br />
free concentrations<br />
Environ. Sci. Technol., 38. #23, 6263-6270<br />
Busser, F; Heringa, M.; Hermens, J.; Schreurs, R.;<br />
Van Der Burg, Bart; Van Der Saag, Paul T.<br />
1876 Volatiles in <strong>SPME</strong> followed by GC-MS analysis of the volatile headspace GC-MS<br />
chinese components of Flos Chrysanthemi indici in<br />
medicines different growing areas.<br />
Chromatographia, 59, #11-12, 763-767<br />
Wu, Q.; Deng, C. H.; Shen, S.; Song, G. X.; Hu, Y.<br />
M.; Fu, D. X.; Chen, J. K.; Zhang, X. M.*<br />
1877 Diethyl Application of <strong>SPME</strong> to in vitro skin permeation experiments GC<br />
phthalate example using diethyl phthalate<br />
on skin Toxicology In Vitro, 19, #2, 253-259<br />
Frasch, H. Fred; Barbero, Ana M.<br />
1878 Volatiles from Identification of biogenic organotellurides in Escherichia 75µm Carboxen GC-MS<br />
cell culture coli K 12 headspace gases using <strong>SPME</strong>-GC headspace<br />
Analytical Biochemistry, 331. #1, 106-114<br />
Swearingen, J.; Araya, M.; Plishker, M.; Saavedra, C.;<br />
Vasquez, C.Chasteen, T.<br />
1879 Faecal Odor The effect of oligofructose on urea metabolism and headspace GC<br />
from cats faecal odour components in cats<br />
J Animal Physiology and Animal Nutr, 89, #3-6, 208-214<br />
Hesta, M.; Hoornaert, E.; Verlinden, A.; Janssens, G. P. J.<br />
1880 Strychnine Application of <strong>SPME</strong> to determination of strychnine in blood 65µm CW-DVB GC/EI-MS<br />
in blood J Chromatogra B, 816, #1-2, 29-34 20min extraction<br />
Barroso, M.; Gallardo, E.; Margalho, C; Avila, S; immersion sampling<br />
Marques, E; Vieira, D. N.; Lopez-Rivadulla, M.<br />
1881 Hexanal, Development of headspace <strong>SPME</strong> w/ on-fiber derivatization 65µm PDMS-DVB GC-MS<br />
heptanal for determination of hexanal and heptanal in human blood 8min @ 60°C<br />
in blood J Chromatogr, B: 813, #1-2, 47-52 PFBHA derivatives<br />
Deng, C. H.; Li, N.; Zhang, X. M.* headspace<br />
1882 Methyl tert- Identification and elimination of polysiloxane curing agent headspace GC-MS<br />
butyl ether interference encountered in the quantification of lowin<br />
blood picogram per milliliter methyl tert-butyl ether in blood by<br />
<strong>SPME</strong> headspace analysis<br />
Anal. Chem, 77,#9, 2912-29-19.<br />
Blount, Benjamin C.; Chambers, David M.; Hughes, T.;<br />
Mauldin, J.; McElprang, David<br />
1883 Ephedrine <strong>SPME</strong> coupled w/ ion mobility spectrometry for the immersion sampling IMS<br />
in urine analysis of ephedrine in urine<br />
J. Sep. Sci.28. #7,612-618<br />
Lokhnauth, John K.; Snow, Nicholas H.<br />
Ambient temperature, unless otherwise indicated. 76
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1884 Ehtanol in Determination of ethanol in human blood and urine by headspace GC<br />
biological automated headspace <strong>SPME</strong> and capillary GC<br />
fluids Anal. Chim. Acta, 522, #2, 163-168<br />
De Martinis, B.; Martins R., Maria A.; Santos M., Carmen C.<br />
1885 Aldehydes in A simple, rapid and sensitive method for determination PFBHA derivative GC-MS<br />
blood aldehydes in human blood by GC-MS and <strong>SPME</strong> headspace<br />
with on-fibre derivatization.<br />
Rapid Communications in Mass Spect, 18, #15, 1715-1720<br />
Deng, C. H.; Zhang, X. M.*<br />
1886 Acetone in Determination of acetone in human breath by GC-MS 65µm PDMS-DVB GC-MS<br />
human breath and <strong>SPME</strong> with on-fiber derivatization PFBHA derivative<br />
& plasms J. Chromatogr. B , 810, #2, 269-275 4 min extract<br />
Deng, Ci; Yu, X; Zhang, J; Zhang, W Zhang, X agitated<br />
1887 Breath marker Impact of inspired substance concentrations on the results headspace GC-MS<br />
in blood & of breath analysis in mechanically ventilated patients<br />
breath Biomarkers, 10, #2-3, 138-152<br />
Schubert, J.; Miekisch, W.; Birken, T.; Geiger, K.;<br />
Noelge-Schomburg, G<br />
1888 Flavins Capillary LC determination of cellular flavins in-tube silica-ODS LC-MS<br />
J. Chromatogr. A, 1053, #1-2, 71-78<br />
Jia, Li; Tanaka, Nobuo; Terabe, Shigeru<br />
1889 Protein Study of ligand-receptor binding using <strong>SPME</strong>: Investigation restricted access LC-MS<br />
binders of receptor, free, and total ligand concentrations molecularly imprinted<br />
J of Proteome Res, 4, #3, 789-800 immobilized antibodies<br />
Musteata, Florin Marcel; Pawliszyn, Janusz<br />
1890 Sterols in Determination of sterols in biological samples by <strong>SPME</strong> BSTFA derivative GC-FID<br />
serum with on-fiber derivatization and GC/FID headspace<br />
samples Anal. Bioanal. Chem., 381, #8, 1576-1583<br />
Domeno, Celia; Nerin, Cristina; Ruiz, Barbara<br />
1891 Basic drugs Poly (methacrylic acid-ethylene glycol dimethacrylate) polymethacrylate HPLC-UV<br />
in serum monlithic capillary for intube <strong>SPME</strong> coupled to HPLC and its coated tube<br />
application to determination of basic drugs in human serum<br />
Anal. Chim. Acta, 523, #2. 251-258<br />
Da, Shi-Lu; Fan, Yi; Feng, Yu-Qi; Shi, Zhi-Guo<br />
1892 Volatiles from Analysis of Rhioxma Curcumae Aeruginosae volatiles by headspace GC-MS<br />
Chinese <strong>SPME</strong> w/GC-MS<br />
medicine Zeitschrift fuer Naturforschung Section C J of Biosciences<br />
59, #7-8, 533-537<br />
Sha, Yuri F.; Shen, Shun; Duan, Geng L.<br />
1893 BTEX in Analytical method for evaluation of exposure to benzene, headspace GC<br />
blood toluene, xylene in blood by GC preceded by <strong>SPME</strong><br />
J Chromatogr B, 809, #1, 183-187<br />
Alegretti, Ana Paula; Thiesen, Flavia V.; Maciel, Gisele<br />
1894 1,2,3,4- Chronic toxicity and body residues of the nonpolar narcotic headspace GC<br />
tetrachloro- 1,2,3,4-tetrachlorobenzene in Chironomus riparius<br />
bezene in Env Toxicology and Chem, 23, #8, 2022-2028<br />
body residue Leslie, Heather A.; Kraak, Michiel; Hermens, Joop L.<br />
1895 Chlorobenzene Baseline toxicity of a chlorobenzene mixture and total body headspace GC<br />
in body residues measured and estimated with <strong>SPME</strong><br />
residue Env Toxicology and Chemistry, 23, #8, 2017-2021<br />
Leslie, Heather A.; Hermens, Joop L. M.; Kraak, Michiel H. S.<br />
1896 Chlorinated Use of <strong>SPME</strong> followed by on-column silylation for determining 85µm polyacrylate GC-MS-SIM<br />
bisphenol A chlorinated bisphenol A in human plasma by GC-MS BSTFA derivative<br />
in plasma J Chromatogra, B, 817, #2, 167-172<br />
Del Olmo, M.; Gonzalez-Casado, A.; Suarez, B.; Taoufiki, J.<br />
Vilchez, J.L.; Zafra, A.<br />
Ambient temperature, unless otherwise indicated. 77
Toxicology<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
639 Drugs Microextraction of drugs<br />
J. Chromatogr.,A, 922(2000) 17-63<br />
Lord, H., Pawliszyn, J.<br />
review article<br />
912 Drugs High-temperature <strong>SPME</strong> procedure for the detection of 85µm polyacrylate GC-MS<br />
drugs by GC-MS 10min @200°C<br />
J. Chromatogr. B (2000) 745(2), 399-411 headspace<br />
Staerk, U., Külpmann, W. acetic anhydride-pyridine<br />
640 Drugs Solid phase microextraction in biomedical analysis review article<br />
in body fluids J. Chromatogr.,A, 902(2000) 167-194<br />
S. Ulrich<br />
641 Volatile, Headspace <strong>SPME</strong> procedures for gas chromatographic review article GC<br />
semivolatiles analysis of biological fluids and materials.<br />
in biological fluids J. Chromatogr.,A, 902(2000) 267-287<br />
Mills, G., Walker, V.<br />
847 Volatile, Headspace <strong>SPME</strong> profiles of volatile compounds in urine: 75µm Carboxen/PDMS GC-MS<br />
in urine Application to metabolic investigations<br />
J. Chromatogr.,B 753(2001) 259-268 headspace<br />
Mills, G., Walker, V. pH 9<br />
642 Hydrocarbon mixture Accessing the aquatic toxicity of complex hydrocarbons<br />
in water mixtures using <strong>SPME</strong><br />
Toxicol. Lett. 2000, 112-1113, 273-282<br />
Parkerton, T, Sone, M., Letiski, D.<br />
643 Methadone <strong>SPME</strong> in the determination of methadone in human 100µm PDMS<br />
in saliva saliva by GC-MS<br />
J. Anal Toxicol (2000), 24(2), 93-96<br />
Dos Santos Lucas, A., Bermejo, A.,<br />
Fernandez, P., Tabernero, M<br />
30 min<br />
29 Methadone Gas Chromatographic Analysis of Methadone in Urine Samples 100µm PDMS GC-MS<br />
in urine after Solid Phase Microextraction 15 min<br />
J. Microcolumn Sep. 6: 577-581 (1994) immersion<br />
Chiarotti, M., Marsili, R. pH 7.7<br />
644 Methadone, EDDP Use of <strong>SPME</strong> for the determination of methadone and 100µm PDMS GC-MS<br />
in human hair EDDP in human hair by GC-MS<br />
Forensic Sci. Int (2000) 107(1-3), 225-232<br />
Luca, A., Bermejo, A., Tabernero, M., Fernadez, P.,<br />
Strano-Rossi, S.<br />
30 min, immersed<br />
563 Methadone, EDDP Use of <strong>SPME</strong> for the determination of Methadone and 100µm PDMS GC-MS<br />
in plasma its main metabolite, EDDP, in plasma by GC-MS 30 min immersion<br />
J. Anal. Toxicol. 24, 66-69 (2000)<br />
Bermejo, A., Seara, R., dos Santos Lucas, A.,<br />
Tabernero, M., Fernandez, P., Marsili, R.<br />
1:4 delution @ pH 9<br />
474 Anorectics <strong>SPME</strong> and GC analysis of anorectic compounds in GC-MS<br />
in urine human urine<br />
J.Microcolumn Sep. 1997, ((4), 249-252<br />
Chiarotti, M. Strano-Rossi, S., Marsili, R.<br />
645 Tetramine Rapid detection of tetramethylenedisulfotertramine 100µm PDMS GC-FPD<br />
in blood in human blood by <strong>SPME</strong>-GC<br />
Anal. Chim. Acta (2000), 404(2), 329-334<br />
Luan, T., Li, G., Zhao, M., Zhang, Z.<br />
Ambient temperature, unless otherwise indicated. 78
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
930 Anesthetics <strong>SPME</strong>-GC-MS method for the determination of 50:30µm DVB/Carboxen/ GC-MS<br />
in urine inhalation anesthetics in urine PDMS<br />
J. Chromatogr. B (1999), 732(1) 115-125 20min headspace<br />
Poli, D., Bergamaschi, E., Maini, P., Andreoli, R., Mutti, A. 10% NaCl<br />
65 Anesthetics Detection of Ten Local Anesthetics in Human Blood Using 100µm PDMS GC-FID<br />
in human blood Solid Phase Microextraction and Gas Chromatography 100°C, 40 min<br />
Jpn. J. Forensic Toxicol. 13 (2): 182-188 (1995) headspace<br />
Kumazawa, T., Lee, X., Sato, K., Seno, H., Ishii, A., Suzuki, D. perchloric acid added<br />
144 Anesthetics Extraction of Local Anesthetics from Human Blood 100µm PDMS GC-FID<br />
in blood by Direct Immersion-<strong>SPME</strong> 40 min<br />
Chromatographia 43: 59-62 (1996) immersion<br />
Kumazawa, T., Sato, K., Seno, H., Ishii, A., Suzuki, O. stirring<br />
salt added<br />
342 Anesthetics Simple Analysis of Local Anesthetics in Human Blood Using 100µm PDMS GC-MS<br />
in human blood Headspace <strong>SPME</strong> and GC-MS-Electron Impact Ionization 120°C, 45 min<br />
Selected Ion Monitoring headspace<br />
J. Chromatog. B, 709 (1998), 225-232<br />
Watanabe, T., Namera, A., Yaskiki, M., Iwasaki, Y., Kojima, T.<br />
NaOH added<br />
475 Nereistoxin in Simple and Sensitive Analysis of Nereistoxin and its 65µm DVB/PDMS GC-MS<br />
human serum Metabolites in Human Serum using Headspace 30 min @ 70°C<br />
<strong>SPME</strong>-GC-MS NaCl added,<br />
J. Chromatographic Science 37(3):77-82(1999)<br />
Namera,A., Watabe,T., Yashiki,Y., Kojima,T., Urabe,T.<br />
headspace<br />
419 Lidocaine Direct <strong>SPME</strong> Combined with Gas and Liquid Chromatography GC, HPLC<br />
in urine for the Determination of Lidocaine in Human Urine<br />
Chromatographia (1998), 47(11/12), 678-684<br />
Koster, E., Hofman, N., DeJong, G .<br />
646 Lidocaine Determination of lidocaine in plasma by direct <strong>SPME</strong> 65µm PDMS/DVB GC<br />
in plasma combined with GC 10 min<br />
J. Chromatogr., B. Biomed Sci. Appl (2000), 739(1), 175-182 immersed<br />
Koster, E., Wemes, C., Morsink, J., deJong, G. salt added<br />
647 Lidocaine Evaluation of <strong>SPME</strong> in combination with GC as a tool Carbowax-DVB GC-NPD<br />
in plasma for quantitative bioanalysis<br />
J. Microcolumn Sep. 2000, 12(5), 308-315<br />
Abdel-Rehim, M., Bielenstein, M, Arvidsson, T.<br />
pH 9<br />
420 Organochlorine Determination of Persistent Organochlorine Compounds in GC-ECD<br />
compounds Blood by <strong>SPME</strong> Extraction and GC-ECD<br />
in blood Fresenius' J. Anal. Chem. (1998), 361(2), 192-196<br />
Roehrig, L., Puettmann, M., Meisch, H.<br />
141 Chloroethers Determination of Chloroethenes in Environmental Biological<br />
in biological samples Samples Using GC Coupled with <strong>SPME</strong><br />
Chromatographia 42(5/6): 313-17 (1996)<br />
Xu, N., Vandegrift, S., Sewe, G.<br />
67 Solvent thinners Simple Analysis of 5 Thinner Components in Human-Body 100µm PDMS GC-FID<br />
in urine, blood Fluids by Headspace <strong>SPME</strong><br />
J. Legal Medicine 107: 310-313 (1995)<br />
80°C, 5 min<br />
Lee, X., Kumazawa, T., Sato, K. headspace<br />
877 Solvent thinners Improved extraction of thinner components from human 65µm Carboxen/PDMS<br />
in urine, blood body fluids by headspace <strong>SPME</strong> with a Carboxen/PDMS<br />
coated fiber<br />
Leg. Med. 1(1999) 231-237<br />
Lee, X., Kumazawa, T., Kondo, K., Furuta, S., Sato, K.<br />
Ambient temperature, unless otherwise indicated. 79
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
648 Volatile organics Determination of volatile organic compounds in blood 100µm PDMS GC-FID<br />
in blood by headspace <strong>SPME</strong>-GC<br />
Weosjemg Uamkoi 2000, 29(1), 37-39<br />
Hao, S., Kang, J., Zhou, S, Cui, J., Qi, Q., Han, K.<br />
10 min<br />
649 Volatile organics The use of <strong>SPME</strong> in conjunction with benchtop quadropole MS 100µm PDMS GC-MS<br />
in blood for the analysis of volatile organic compounds in human<br />
blood at low ppt. Levels<br />
J. Chromatogr. Sci. (2000), 38(2), 49-54<br />
Cardinali, F., Ashley, D., Wooten, J., McCraw, J., Lemire, S.<br />
10 min, headspace<br />
795 Benzene Urinary benzene as a biomarker of exposure among GC-MS<br />
in urine occupationally exposed and unexposed subjects.<br />
Carcinogenesis (Oxford) (2001) 22(2), 279-286<br />
Rappaport, S; Bechtold, W; Dosemeci, M; Fustinoni, S<br />
Guilan, Li; Hayes, R<br />
914 PAHs Determination of PAHs in human blood seum by proteolytic<br />
in blood serum digestion-direct immersion <strong>SPME</strong><br />
Analytica Chimica Acta (1999) 396(2-3) 303-308<br />
Poon, K., Lam, P., Lam, M.<br />
887 PAHs Quantification of the PAH (Polycyclic Aromatic hydrocarbons)<br />
metabolites as a biomarker for PAH exposure.<br />
Abstracts of Papers ACS (2001) 221(1-2) ANYL117<br />
Walcott, C; Smith, C; Patterson, D; Maggio, V;<br />
Huang, W; Grainger, J<br />
146 HydrocarbonsC9-C20 Analysis of Inflammable Substances in Blood Using 100µm PDMS GC-MS<br />
blood Head Space-<strong>SPME</strong> and Chemical Ionization and 10min.@90C<br />
in blood Chemical Ionization Selected Ion Monitoring<br />
Jpn. J. Forensic Toxicol. 13 (2): 189-194 (1995) NaOH added<br />
Iwasaki, Y., Yahiki, M., Nagsawa, N., Kojima, T., Miyazaki, T. headspace<br />
476 Flammables Analysis Method of Flammables in Blood by 100µm PDMS GC-MS<br />
blood, urine using headspace- <strong>SPME</strong> and Chemical 10 min @ 90°C<br />
ionized MS Detection<br />
Jpn. J. Legal. Med (49 Append): 80(1995)<br />
Iwasaki,Y., Yashiki,M., Nagasawa,N.,<br />
Miyazaki,T., Kojima,T<br />
headspace<br />
195 Cresol, phenols Detection of Cresol Isomers and Phenol in Human Whole Blood 85µm polyacrylate GC-FID<br />
in human blood by Headspace <strong>SPME</strong> and Capillary GC 30 min @ 100°C<br />
Jpn. J. Forensic Toxicol. 15 (1): 21-28 (1996) NaCl added<br />
Lee, X., Kumazawa, T., Furuta, S., Kurosawa, T., Akiya, K.,<br />
Skiya, I., Sato, K.<br />
headspace<br />
420 Chlorophenols Application of <strong>SPME</strong> and GC-MS for the Determination 85um polyacrylate GC-MS<br />
in urine of Chlorophenols in Urine 50 min, immersed<br />
J. Chromatogr. B: Biomed. Sci. Appl. (1998), 707(1+2), 91-97<br />
Lee, M., Yeh, Y., Hsiang, W., Chen, C.<br />
pH 1<br />
583 4-Chlorophenol Total 4-chlorophenol determination in urine samples of 85µm polyacrylate GC-MS<br />
in urine subjects exposed to chlorobenzene, using <strong>SPME</strong> and GC-MS. 30 min<br />
J-High-Resolut-Chromatogr. Jul 1999; 22(7): 427-428<br />
Guidotti,-M; Ravaioli,-G; Vitali,-M<br />
salt added<br />
477 PCBs in Determination of PCBs in human blood serum by <strong>SPME</strong> GC-ECD<br />
human serum Cheosphere, 1999, 39(6), 905-912<br />
Poon, K., Lam, P., Lam, M.<br />
Ambient temperature, unless otherwise indicated. 80
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
68 Valproic acid Solid Phase Microextraction for the Determination of the 100µm PDMS GC-FID<br />
in human plasma Free Concentration of Valproic Acid in Human Plasma 3 min<br />
by Capillary GC immersion<br />
J. Chromatogr. B 673: 299-305 (1995)<br />
Krogh, M., Johansen, K., Gonnesen, F., Rasmussen, K.<br />
pH 2<br />
69 Nicotine, cotinine Rapid Analysis of Nicotine and Cotinine in Urine 100µm PDMS GC-MS<br />
in urine Using Head Space Solid Phase Microextraction 80°C, 5 min<br />
and Selected Ion Monitoring<br />
Jpn. J. Forensic Toxicol. 13 (1): 17-24 (1995)<br />
Yashiki, N., Magasawa, T., Kojima, T., Miyazaki, T., Iwasaki, Y.<br />
headspace<br />
478 Cartap Simple Analysis of Cartap and Its Metabolites Using Solid 65µm DVB/PDMS GC-MS<br />
in human serum Phase Microextraction and GC/MS 30 min @ 70°C<br />
Jpn. J. Forensic Toxicol. 16(2):142-143(1998)<br />
Namera,A., Watanabe,T., Yashiki,M., Iwasaki,Y., Kojima,T.<br />
immersed, NaOH added<br />
479 Nicotine, cotinine Analysis of Nicotine and Cotinine in biological fluid 100µm PDMS GC-MS<br />
in urine sample by <strong>SPME</strong> 80°C, 5 min<br />
Jpn. J. Legal. Med (49 Append): 80(1995)<br />
Iwasaki,Y., Yashiki,M., Nagasawa,N., Miyazaki,T., Kojima,T.<br />
headspace<br />
480 Stimulants Analysis of Stimulants and Narcotics 100µm PDMS GC-NPD<br />
in blood & urine Bunseki 10:816-822(1995) 20 min @100°C<br />
Yashiki,M., Kojima,T. 3pH, (NH4)2SO4,NaCl<br />
headspace<br />
918 Stimulants Determination of stimulants in human urine and hair samples polypyrrole capillary LC-MS<br />
urine, hair samples by polypyrrole coated capillary in-tube <strong>SPME</strong> coupled w/ LC-MS<br />
Talanta 2001, 54(4) 655-672<br />
Wu, J., Lord, H., Pawliszyn, J.<br />
650 Fenfluramine, Simple and simultaneous analysis of fenfluramine, GC-MS<br />
amphetamine, amphetamine, and methamphetamine in whole 15 min, headspace<br />
methamphetamine blood by GC-MS after headspace <strong>SPME</strong> and derivatization<br />
in blood Forensic Sci. Int. 2000, 109(3), 215-223<br />
Namera, A., Yahiki, M., Liu, M., Okajima, K., Hara, K.,<br />
Imamura, T., Kojima, T.<br />
808 Amphetamine, Highly sensitive analysis of methamphetamine and GC-MS<br />
methamphetamine amphetamine in human whole blood using headspace GC-MS 30 min @ 90°C EI-SIM<br />
in blood Forensic Sci. Int. 2000, 116(1), 15-22<br />
Namera, A., Kojima, T, Okajima, K., Tskue, I., Yashiki, M.<br />
headspace<br />
842 4-(4-methoxybenzyl) Synthesis of 4-methyl-5-arylpyrimidines and GC-MS<br />
pyrimidine 4-arylpyrimidines: route specific markers for the Leuckardt<br />
in tablets preparation of amphetamine, 4-methoxyamphetamine and<br />
4-methylthioamphetamine.<br />
Forensic Sci Intl (2001) 115(1-2) 53-67<br />
Kirkbride, K.; Ward, A; Jenkins, N..; Klass, G.; Coumbaros, J.<br />
headspace<br />
866 Impurities Application of solid-phase microextraction to the profiling of<br />
from drug an illicit drug: Manufacturing impurities in illicit<br />
4-methoxyamphetamine<br />
J.Forensic Sciences (1999 )44(6), 1237-1242<br />
Kirkbride, K. Paul; Coumbaros, John C.; Klass, Gunter<br />
481 Amphetamines, <strong>SPME</strong>/Capillary GC for the profiling of confiscated 65µm DVB/PDMS GC-NPD<br />
ecstasy in ecstasy and amphetamine headspace/immersed<br />
powder & tablets Chromatographia, (1999) 50 (3/4), 247-252 0.1M acetate buffer<br />
Kongshaug, K., Pedersen-Bjergard, S., Krogh,M.,<br />
Rasmussen, K<br />
pH 5<br />
Ambient temperature, unless otherwise indicated. 81
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
482 Ecstasy and Automated determination of ecstasy and amphetamines 100µm PDMS GC-NPD<br />
amphetamines in urine by <strong>SPME</strong> and capillary GC after 16 min, immersed or MS<br />
in urine polylchloroformate derivatization.<br />
J. Pharm. Bomed. Anal. (1999), 19(3+4), 463-475<br />
Ugland, H., Kogh, M., Rasmussen, K.<br />
pH10<br />
927 Amphetamine, Determination of amphetamine, methamphetamine and 100µm PDMS GC-MS<br />
methamphetamine dimethamphetamine in human urine by <strong>SPME</strong>-GC-MS 30 min, immersed<br />
dimethamphetamine J. chromatogr. B (1998), 716(1-2) 359-365 pH 12.4 KOH, NaCl added<br />
in urine Myung, S., Min, H., Kim, S., Kim, M., Cho, J., Kim, T. stirred<br />
562 Amphetamines Rapid analysis of amphetamine, methamphetamine, 100µm PDMS GC-MS<br />
in urine MDA, and MDMA in urine using <strong>SPME</strong>, direct On-Fiber 10 min @ 100°C<br />
derivatization, and analysis by GC-MS headspace, 2N NaOH<br />
J. Anal. Toxicol. 24, 11-16 (2000) 20 min @ 60°C on fiber<br />
Jurado, C., Gimenez, M., Soriano, T.,<br />
Menedez, M., Repetto, M.<br />
trifluoroacetic anhydride<br />
483 Amphetamines Rapid Analysis Amphetamines in Blood Using <strong>SPME</strong> 100µm PDMS GC-MS<br />
in urine & blood 20th Japan Biomedical Mass Spectrometry:127-130(1995) 5 min @ 80°C<br />
Yashiki,M., Kojima,T. immersed, NaOH added<br />
484 Amphetamines Detection of Amphetamines and Inflammable Compounds in 100µm PDMS GC-MS<br />
in urine & blood Biological Materials Using GC/MS and <strong>SPME</strong> 5 min @ 80°C<br />
Jpn. J. Forensic Toxicol. 12(2):120-121(1994)<br />
Yashiki, M., Kojima,T., Miyazaki,T.<br />
immersed, NaOH added<br />
188 Amphetamines Quantitative and Qualitative Analysis of MDMA, MDEA, MA, 100µm PDMS GC-MS<br />
in urine and Amphetamine in Urine by Headspace/<strong>SPME</strong> and GC/MS 5 min @ 90°C<br />
Forensic Sci. Intl. 83 (3): 161-166 (1996)<br />
Centini, F., Masti, A., Comparini, I.<br />
headspace<br />
70 Amphetamines Detection of Amphetamines in Urine Using Head Space 100µm PDMS GC-FID<br />
in urine <strong>SPME</strong> and Chemical Ionization Selected Ion Monitoring 5 min<br />
Forensic Sci Intl., 76(2), 169-177 (1995) 80°C<br />
Yashiki, M., Kojima, T., Miyazaki, T.,<br />
Nagasawa, N., Iwasaki, Y., Hara, K.<br />
stirring<br />
173 Amphetamines Rapid Analysis of Amphetamines in Blood Using Headspace 100µm PDMS GC-SIM-MS<br />
in blood <strong>SPME</strong> and Selected-Ion Monitoring 5 min @ 80°C<br />
Forensic Sci. Intl. 78 (2): 95-102 (1996) heptafluorobutyr- amide<br />
Nagasawa, N., Yashiki, M., Iwasaki, Y., Hara, K., Kojima, T. derivative<br />
327 Amphetamines Method Optimization for the Analysis of Amphetamines in 100µm PDMS GC-FID<br />
in urine Urine by <strong>SPME</strong> 15-60 min<br />
Anal. Chem. 69 (19): 3899-3906 (1997) headspace<br />
Lord, H., Pawliszyn, J. stirring<br />
192 Amphetamines Simple Clean-up of Methamphetamine and Amphetamine in 100µm PDMS GC-NPD<br />
in urine Human Urine by Direct-Immersion <strong>SPME</strong> 30 min @ 65°C<br />
Jpn. J. Forensic Toxicol. 14 (3): 228-232 (1996) Na2CO3 added<br />
Ishii, A., Seno, H., Kumazawa, T., Suzuki, O.,<br />
Nishikawa, M., Watanabe, K., Hattori, H.<br />
immersed<br />
145 Amphetamines Application of <strong>SPME</strong> Technique for the Detection of Urinar GC<br />
in urine Methamphetamine and Amphetamine by GC<br />
J. Can. Soc. Forensic Sci. 29(2): 43-48, (1996)<br />
Ameno, K., Fuke, C., Ameno, S., Kinoshita, H., Ijirei, I.<br />
421 Amphetamines, Determination of Amphetamine and Methamphetamine in Human Hair 100µm PDMS GC-NPD<br />
methamphetamine by Headspace <strong>SPME</strong> and GC-NPD 15 min @45°C<br />
in hair J. Chromatogr. B: Biomed. Sci. Appl. (1998), 707(1+2) 99-104<br />
Koide, I., Noguchi, O., Okada, K., Yokoyama, A., Oda, H.,<br />
Yamamoto, S., Kataoka, H.<br />
immersed, NaOH added<br />
Ambient temperature, unless otherwise indicated. 82
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
194 Methamphetamine, Rapid Analysis of Methamphetamine and Cocaine in the 100µm PDMS GC-FTD<br />
cocaine Urine of Drug Abusers with <strong>SPME</strong> 15 min<br />
in urine Chromatography 18 (3): 185-188 (1996) immersion<br />
Makino, Y., Takgi, T., Ohta, S., Hirobe, M. pH 10.5<br />
198 Amphetamines Screening Procedure for 21 Amphetamine-Related 100µm PDMS GC-MS<br />
in urine Compounds in Urine Using <strong>SPME</strong> and 80°C, 10 min<br />
Gas Chromatography-Mass Spectrometry headspace<br />
J. Chromatogr. Sci. 36: 1-7 (1998)<br />
Battu, C., Marquet, P., Fauconnet, A., Lacassie, E.,<br />
Lachatre, G.<br />
salt added<br />
566 Amphetamines in Automated drug analysis by in-tube <strong>SPME</strong>-LC-MS 60cm x 0.25mm ID tube LC-MS<br />
urine Chromatography. Jun 1999; 20(2): 142-145<br />
Kataoka,-H; Lord,-HL; Pawliszyn,-J<br />
Omegawax 250 electrospray<br />
651 Amphetamines Simple and rapid determination of amphetamine, In-tube Omegawax 250 LC-MS<br />
in urine methamphetamine and their methylenedioxyl derivatives in<br />
urine by automated in-tube <strong>SPME</strong> coupled with LC-electrospray<br />
ionization mass spectrometry<br />
J. Anal. Toxicol (2000), 24(4), 257-265<br />
Kataoka,-H; Lord,-HL; Pawliszyn,-J<br />
60cmx0.25mmi.d.x0.25µm electrospray<br />
652 Amphetamines Determination of amphetamine and methamphetamine PDMS GC-MS<br />
methamphetamine in serum via headspace derivatization <strong>SPME</strong>-GC-MS 40 min, headspace<br />
in serum J. Chromatogr. A, 896, (2000) 265-273 pH 9.5<br />
Lee, M., Song, Y., Hwang, B., Chou, C. heptafluorobutyric<br />
anhydride ethyl acetate<br />
831 Amphetamines On-fiber derivatization for direct immersion <strong>SPME</strong> part I:<br />
acylation of amphetamine with pentafluorobenzoyl chloride<br />
J. Sep. Sci. (2001) 24(2), 116-122<br />
Koster, E; Bruins, C.; Wemes, C; De Jong, G.<br />
765 Beta blockers Determination of automated In-tube <strong>SPME</strong>-LC-MS In-tube Omegawax 250 LC-MS<br />
in urine, serum for drug analysis<br />
J.MIcroSeparation,(2000-9), 12(9), 493-500<br />
Kataoka,-H; Lord,-HL; Pawliszyn,-J<br />
electrospray<br />
794 Beta blockers Determination of beta-blockers by HPLC w/<strong>SPME</strong> 85µm polyacrylate HPLC<br />
in urine, serum from urine and plasma samples<br />
Analytical Letters (2001) 34(1), 91-101<br />
Tanabe, S; Shimokawa, K; Matsuda, Y.,Katayama, M;<br />
Daimon, H,Hara. I; Kaneko, S; Sato, T.<br />
71 Amphetamines, alcohols Comparison of New Solid Phase Extraction Methods for 100µm PDMS, GC-FID<br />
in urine, serum Chromatographic Identification of Drugs in Clinical 85µm polyacrylate<br />
Toxicology Analysis 60°C, 15 min<br />
Degel, F., Weidemann, G. headspace<br />
485 Amphetamines in Some Problems of Detecting Amphetamines in Biological 100µm PDMS GC-MS<br />
biological fluids Materials by using Triage 5 min @ 80°C<br />
Pract. Forens. Med. 40:99-102 (1997) CaCO3 added<br />
Watanabe,T., Namera,A., Yashiki,M., Iwasaki,Y., Kojima,T. headspace<br />
234 Drug Summary Analysis of Drugs and Poisons in Legal Medicine Various fibers &<br />
J. Mass Spectrom. Soc. Jpn. 44: 321-333 (1996)<br />
Suzuki, O., Seno, H., Ishii, A.<br />
conditions<br />
Ambient temperature, unless otherwise indicated. 83
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
79 Drugs of abuse Determination of Drugs of Abuse Using <strong>SPME</strong> (German) 100µm PDMS, GC-MS<br />
in urine Labor-Med. 18 (2): 112-118 (1995) 85µm polyacrylate<br />
Singer, K., Wenz, B., Seefeld, V., Speer, U. 40°C, 20 min<br />
immersion, stirring<br />
81 Cocaine Detection of Cocaine in Human Urine by <strong>SPME</strong> and Capillary 100µm PDMS GC-FPD<br />
in urine GC with Nitrogen-Phosphorus Detection 30 min<br />
Jpn. J. Forensic Toxicol. 13 (3): 207-210 (1995) immersion, stirring<br />
Kumazawa, T., Watanabe, K., Sato, K., Seno, H.,<br />
Ishii, A., Suzuki, O.<br />
NaF added<br />
653 Volatiles <strong>SPME</strong>/GC-MS characterization of volatiles associated 30/50Carboxen/DVB/PDMS GC-MSD<br />
from cocaine, heroin with cocaine and heroin 85µm polyacrylate<br />
Am. Lab, Sept. 2000, 32-34 90 min<br />
Vu, D., Nicholas, P. Erikson, C. headspace<br />
486 Methyl Benzoate Field and Laboratory comparison of the sensitivity and GC-MS-MS<br />
on currency reliability of cocaine detection on currency using<br />
chemical sensors, humans, K-Os and <strong>SPME</strong>/GC/MS<br />
Proceeding SPIE-Int. Soc. Opt. Eng, 3576:41-46 (1999)<br />
Furton, K., Hsu, Y., Luo, T., Norelus, A., Rose, S.<br />
907 Daidzein, isoflavon Detection of the isoflavone aglycones genistein and daidzein LC-MS<br />
aglycones genistein in urine using <strong>SPME</strong>-HPLC-electrospray MS<br />
in urine J. Chromatogr. B (2001), 759(1) 33-41<br />
Satterfield, M., Black, D., Brodbelt, J.<br />
164 Barbiturates Determination of Barbiturates by <strong>SPME</strong> and Ion Trap GC-MS 65µm Carbowax/DVB GC-MS<br />
in water J. Chromatogr. A 777: 275-282 (1997) 20 min<br />
Hall, B., Brodbelt, J. immersion, stirring<br />
572 Benzoylecgonine Aqueous phase hexyl chloroformate derivatization and <strong>SPME</strong> 100µm PDMS GC-EMIS<br />
in urine determination of benzoylecgonine in urine by GC- 10 mi. @ 55°C<br />
Quadrapole ion trap mass spectrometry hexyl chloroformate<br />
J-Forensic-Sci. May 1999; 44(3): 527-534<br />
Hall,-BJ; Parikh,-AR; Brodbelt,-JS<br />
derivative<br />
224 Barbiturates Determination of Barbiturates by <strong>SPME</strong> and Capillary polyvinyl coated electrophoresis<br />
in urine and serum Electrophoresis metal rod 230nm<br />
Anal. Chem. 69: 1217-1222 (1997)<br />
Li, S., Weber, S.<br />
5, 10, 30 min<br />
80 Meperidine Detection of Meperidine (Pethidine) in Human Blood and Urine 100µm PDMS GC-FID<br />
596 Barbiturates Artificial receptor-facilitated <strong>SPME</strong> of barbiturates. PVC/steel rod CE<br />
in urine/serum Anal-Chem. 1 Jun 1999; 71(11): 2146-2151 5 min<br />
Li,-S; Sun,-LF; Chung,-Y; Weber,-SG immersed<br />
654 Meperidine Detection of Meperidine (Pheonthiazin) in human blood and 100°C, 30 min GC<br />
in urine and blood urine by Headspace <strong>SPME</strong> and Gas Chromatography headspace<br />
Jpn. J. Forensic Toxicol. 13 (3): 211-215 (1995)<br />
Seno, H., Kumazawa, T., Ishii, A., Nishikawa, M.,<br />
Hattori, H., Suzuki, O.<br />
salt & NaOH added<br />
196 Phencyclidine in Simple Extraction of Phencyclidine from Human Body Fluids 100µm PDMS GC-surface<br />
blood and urine by Headspace <strong>SPME</strong> 90°C, 30 min ionization<br />
Chromatographia 43 (5-6): 331-333 (1996)<br />
Ishii, A., Kumazawa, T., Watanabe, K., Hattori, H., Suzuki, O.<br />
headspace detector<br />
487 Diphenylmethane Simple Analysis of Diphenylmethane Antihistaminics 100µm PDMS GC-FID<br />
blood and urine and their Analogous in bodily Fluids by headspace 10 min @ 98°C<br />
<strong>SPME</strong> capillary gas chromatography<br />
J. Chromatogr. Sci. 35:275-279(1997)<br />
Nishikawa,M., Seno,H., Ishii,A. Suzuki,O.,<br />
Kumazawa,T., Watanabe,K., Hattori,H.<br />
10N NaOH<br />
Ambient temperature, unless otherwise indicated. 84
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
179 Ethanol Blood Alcohol Determination with Automated <strong>SPME</strong>: 65µm Carbowax/DVB GC-FID<br />
in blood A Comparison with Static Headspace Sampling 3 min<br />
J. Can. Soc. Forens. Sci. 30(1): 7-12 (1997) headspace<br />
Penton, Z. salt & NaF added<br />
191 Ethanol in Detection of Ethanol in Human Body Fluids by Headspace 65µm Carbowax/DVB GC-MS<br />
blood, urine <strong>SPME</strong>/Capillary GC 70°C, 10 min<br />
Chromatographia 43 (7-8): 393-397 (1996)<br />
Kumazawa, T., Seno, H., Lee, X., Ishii, A.,<br />
Suzuki, O., Sato, K.<br />
headspace, (NH4)2SO4<br />
418 Ethanol in Improved Extraction of Ethanol from Human Body Fluids Carboxen/PDMS<br />
blood, urine by Headspace <strong>SPME</strong> with a Carboxen/PDMS Fiber<br />
Chromatographia (1998), 47(9/10), 593-595<br />
Lee, Z., Kumazawa, T., Sato, K., Seno, H., Ishii, A.,<br />
Suzuki, O.<br />
206 Antihistamine drugs Simple Analysis of Diphenylmethane Antihistamines 100µm PDMS GC-FID<br />
in blood, urine and Their Analogue in Bodily Fluids by Headspace 90°C, 10 min<br />
<strong>SPME</strong>-Capillary Gas Chromatography<br />
J. Chromatogr. Sci. 35 (6): 275-279<br />
Nishikawa, M., Seno, H., Ishii, A., Suzuki, O.,<br />
Kumazawa, T., Watanabe, K., Hattori, H.<br />
headspace<br />
64 Tricyclic Simple Extraction of Tricyclic Antidepressants in Human Urine 100µm PDMS GC-FID<br />
antidepressants by Headspace <strong>SPME</strong> 100°C, 15 min<br />
in urine Jpn. J. Forensic Toxicol. 13 (1): 25-30 (1995) headspace<br />
Kumazawa, T., Lee, X., Tsai, M., Seno, H., Ishii, A., Sato, K. stirring<br />
95 Tricyclic Detection of Tricyclic Antidepressants in Whole Blood by 100µm PDMS GC-FID<br />
antidepressants Headspace <strong>SPME</strong>-Capillary GC 100°C, 60 min<br />
in blood J. Chrom. Sci. 35: 302-308 (1997) headspace<br />
Lee, X., Kumazawa, T., Sato, K. NaOH added<br />
488 Tricyclic Analysis of Tricyclic Antidepressant and that application 100µm PDMS GC-MS<br />
antidepressants for fatal intoxication by Headspace <strong>SPME</strong> 45 min @ 120°C<br />
in urine, blood Jpn. J. Legal. Med. 52:69(1998)<br />
Watanabe,T., Namera,A., Yashiki,M., Iwasaki,Y., Kojima,T.<br />
headspace, NaOH<br />
352 Tetracyclic Simple Analysis of Tetracyclic Antidepressants in Blood 100µm PDMS GC-MS<br />
antidepressants Using Headspace <strong>SPME</strong> and GC-MS 120°C, 45 min<br />
in blood J. Anal. Toxicology, Vol. 22 (5), 1998, 396-400 headspace<br />
Namera, A., Watanabe, T., Yahiki, M., Iwasaki, Y., Kojima, T. NaOH added<br />
655 Antidepressant Direct coupling of microcolumn liquid chromatography In-tube HPLC<br />
in urine with in-tube <strong>SPME</strong> for the analysis of antidepressant drugs<br />
Analyst (Cambridge UK) 2000, 125(5), 807-809<br />
Saito, Y., Kawazoe, M, Jinno, K., Nayhashida, M.<br />
227 Diazepam Solvent-Modified Solid-Phase Microextraction for the 85µm polyacrylate GC-FID or FPD<br />
in serum Determination of Diazepam in Human Plasma Samples 4 min<br />
by Capillary Gas Chromatography immersion<br />
J. Chromatogr. B 689: 357-364 (1997) pH 5.5<br />
Krough, M., Grefslie, H., Rasmussen, K. 1-octanol added<br />
656 Amitriptyline <strong>SPME</strong> coupled with microcolumn LC for the analysis of HPLC<br />
in human urine amitriptyline in human urine<br />
Chromatographia, (2000 Sept.) 52(5-6) 309-313<br />
Jinno, K., Kawazoe, M., Hayashida, M.<br />
Ambient temperature, unless otherwise indicated. 85
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
371 Benzophenone-3 Determination Benzophenone-3 and Metabolites in Water and 65µm Carbowax/DVB GC-MS<br />
in water and urine Human Urine by <strong>SPME</strong> and Quadrupole Ion Trap GC-MS 45 min<br />
Anal. Chimica Acta 371 (1998) 195-203<br />
Felix, T., Hall, B., Brodbelt, J.<br />
immersion<br />
871 Benzoylecgonine Aqueous phase hexylchloroformate derivatization and <strong>SPME</strong> 100µm PDMS GC-MS<br />
in urine Determination of benzoylecgonine in urine by GC<br />
quadrupole ion trap mass spectrometry.<br />
J Forensic Sci (1999) 44(3) 527-534 hexyl chloroformate<br />
Brodbelt, Jennifer S.; Hall, Brad J.; Parikh, Aashish R. derivative<br />
168 Antidepressants Solid Phase Microextraction with Capillary GLC and NDPD for 100µm PDMS GC-NDPD<br />
in blood the Assay of Antidepressant Drugs in Human Plasma 60 min<br />
J. Chromatogr. B 696: 217-234 (1997)<br />
Ulrich, S., Martens, J.<br />
immersion<br />
657 Phenothiazines Determination of Phenothiazines in human body fluids by 85µm Polyacrylate LC-MS<br />
urine, blood <strong>SPME</strong> and LC-tandem mass spectrometry 60 min @ 40°C<br />
J.Mass Spec. (2000-9) 35(9) 1091-1099 pH 8<br />
Seno, H., Kumazawa, T., Ishii, A., Hattori, H.,<br />
Nishikawa, M., Watanabe, K., Suzuki, O.<br />
stirring<br />
142 Phenothiazines Detection of Some Phenothiazines by Headspace <strong>SPME</strong> 100µm PDMS GC-FID<br />
urine, blood and GC 40 min @ 140°C<br />
Jpn. J. Forensic Toxicol. 14: 30 (1996) headspace<br />
Kumazawa, T., Seno, H.,, Ishii, A., Hattori, H., Sato, K.,<br />
Watanabe, K., Suzuki, O.<br />
NaCl added<br />
947 Propranolol In-Tube Molecularly Imprinted Polymer <strong>SPME</strong> for the selective<br />
Determination of Propranolol<br />
Anal. Chem (2001) 73(11) 2383-2389<br />
Mullett, Wayne M.; Martin, Paul; Pawliszyn, Janusz<br />
946 Carbofuran Application of (<strong>SPME</strong>) technique for the detection of<br />
in seum carbofuran in serum<br />
J. Can. Soc. Forensic Sci(2001) 34(1), 23-26<br />
Ameno, K.; Lee, S-K.; Ameno, S.; Kinoshita, H.; Kubota, T.;<br />
Zhang, X.; Ijiri,<br />
908 Dinitroaniline Headspace <strong>SPME</strong> and GC determination of dinitroaniline 100µm PDMS GC-ECD<br />
in blood, urine herbiciede s in human blood, urine and environmental water 30 min @ 70°C<br />
and water J. Chromatogr. B. (1998), 714(2), 205-213 headspace<br />
Guan, F., Watanabe, K., Ishii, A., Seno, H., Kumazawa, T.,<br />
Hattori, H., Suzuki, O.<br />
NaSO4<br />
183 Herbicides <strong>SPME</strong> and GC-ECD Determination of Dinitroaniline Herbicides in 100µm PDMS GC-ECD<br />
in water and Surface Water and Biological Fluids 30 min @ 70°C water<br />
biological fluids Jpn. J. Forensic Toxicol. 15 (2): 151-153 (1997) @ 90°C blood<br />
Prosen, F., Watanabe, K., Ishii, A., Seno, H., Suzuki, O. Na2SO4, headspace<br />
860 Organochlorine & Gas chromatographic determination of organochlorine and GC/ECD/FPD<br />
organophosphorus organophosphorus pesticides in human fluids using <strong>SPME</strong><br />
pesticides in Analytica Chimica Acta (2001) 433(2) 217-226<br />
biological fluids Hernandez, F.; Beltran, J.; Egea, S.; Lopez, F. J.; Pitarch, E.<br />
66 Organophosphate Detection of Organophosphate Pesticides in Human Body 100µm PDMS GC-NPD<br />
pesticides Fluids by Headspace <strong>SPME</strong> and Capillary GC with 100°C, 20 min<br />
in urine, blood Nitrogen-Phosphorus Detection<br />
Chromatogrphia 42(3/4): 135-140 (1996)<br />
Lee, X., Kumazawa, T., Taguchi, T., Sato, K., Suzuki, O.<br />
pH 3 with HCl<br />
Ambient temperature, unless otherwise indicated. 86
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
875 Organophosphorus Optimisation of <strong>SPME</strong> conditions for headspace analysis<br />
pesticides in of organophophorus pesticides in whole blood<br />
whole blood Z Zagadnien Nauk Sadowych, 42(2000) 47-59<br />
Asri, K., Anderson, R.<br />
103 Malathion Rapid Analysis of Malathion in Blood Using Head Space 100µm PDMS GC-MS<br />
in blood Solid Phase Microextraction and Selected Ion Monitoring 90°C, 5 min<br />
Forensic Sci. Int. 88: 125-131 (1997)<br />
Namer, A., Yashiki, M., Nagasawa, N., Iwasaki, Y.,<br />
Kojima, T.<br />
headspace<br />
489 Parathion Rapid analysis of parathion in biological samples using GC-MS<br />
in blood headspace <strong>SPME</strong> and GC-MS<br />
Clin. Chem. Lab. Med. 1999, 37(6), 639-642<br />
Musshoff, F., Junker, H., Madea, B<br />
headspace<br />
136 Carbamate in Determination of Some Carbamate Pesticides in Human Body 100µm PDMS GC-NPD<br />
urine, serum Fluids by Headspace <strong>SPME</strong>/GC 70°C, salt<br />
Jpn. J. Forensic Toxicol. 14 (3): 199-203 (1996)<br />
Seno, H., Kumazawa, T., Ishii, A., Nishif, M.<br />
headspace<br />
797 Amino pesticides Separation methods for amino group-possessing pesticides 100µm PDMS GC-FID, NPD<br />
in biological samples in biological samples. 30min @ 95°C, salt<br />
J Chromatogr B (2000) 747(1&2), 241-254<br />
Kumazawa, T; Suzuki, O.<br />
headspace<br />
490 Arylamide Herbicides Simple Analysis of Arylamide Herbicides in Serum using 100µm PDMS GC-MS<br />
in Serum Headspace <strong>SPME</strong> and GC-MS 45 min @ 90°C<br />
6th Indo Pacific Congress on Legal Medicine and<br />
Forensic Science. 770-773(1998)<br />
Namera,A., Watanabe,T., Yashiki,M., Iwasaki,Y., Kojima,T.<br />
headspace, NaCl<br />
107 Diazepams in Solid-Phase Microextraction/Liquid Chromatography (<strong>SPME</strong>/LC) 85µm polyacrylate HPLC-UV,<br />
biological fluids for Drug Analysis in Biological Fluids<br />
Chromatography (1997), 18(4), 244-245,<br />
Jinno, K<br />
30°C, 3 hr 200nm<br />
658 Drugs <strong>SPME</strong> of drugs from biological matrices review article<br />
in biological fluids J. Chromatogr. A 885(2000) 445-455<br />
Snow, N.<br />
234 Drugs in Analysis of Drugs and Poisons in Legal Medicine 100µm PDMS & GC-MS<br />
biological fluids J. Mass Spectrom. Soc. Jpn. 44: 321-333 (1996) 85µm polyacrylate<br />
Suzuki, O., Seno, H., Ishii, A. headspace<br />
NaCl, Na2SO4,<br />
108 Volatiles Confirmation of Volatiles by <strong>SPME</strong> and GC-MS in the 85µm polyacrylate GC-MS<br />
in urine Investigation of Two Traffic Fatalities 60°C, 10 min<br />
J. Anal. Toxicol. 1997, 21(4), 286-290<br />
Brewer, W., Galipo, R., Morgan, S., Habben, K.<br />
headspace<br />
564 Tetarchoroethylene Tetrachloroethylene and trichloroethylene fatality: 100µm PDMS GC-ECD<br />
trichloroethylene in case report and simple headspace <strong>SPME</strong>-capillary 1 min headspace<br />
tissue, urine, serum GC determination in Tissues<br />
J. Anal.Toxicol, 24 (1), 22-26, (2000)<br />
Dehon, B., Humbert, L., Devisme, L., Stievenart, M., Mathieu, D.<br />
Houdret, N., Lhermitte, M.<br />
60°C<br />
113 Estrogen, steroids in Analysis of Steroids from Human Serum by <strong>SPME</strong> with 85µm polyacrylate GC-MS<br />
water/biological fluids Headspace Derivatization & GC 30 min<br />
J. High Res. Chromatogr. 20: 171-173 (1997) immersion, stirring<br />
Okeyo, P., Rentz, S., Snow, N. BSTFA derivative<br />
Ambient temperature, unless otherwise indicated. 87
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
373 Estrogen, steroids in Analysis of Estrogens and Anabolic Steroids by <strong>SPME</strong> with 85µm polyacrylate GC-MS<br />
water/biological fluids On-Fiber Derivatization and GC-MS 30 min<br />
J. Microcolumn Separations, 10(7) 551-556 (1998) immersion, stirring<br />
Okeyo, P., Snow, N. BSTFA derivative<br />
404 Estrogen, steroids in On-Fiber Derivatization for Analysis of Steroids by <strong>SPME</strong>-GC-MS 60µm Carbowax/DVB GC-MS<br />
water/biological fluids Book chapter 60°C, 30 min<br />
Snow, N. immersion<br />
stirring<br />
BSTFA derivative<br />
200 Ethanol, acetone, Solid Phase Microextraction for the Analysis of Human Breath 100µm PDMS GC-MS<br />
isoprene in Anal. Chem. 69 (4): 587-596 (1997) 10-60 sec<br />
human breath Grote, C., Pawliszyn, J. headspace<br />
659 Isoprene Determination of isoprene in human expired breath using Carboxen/PDMS GC-MS<br />
in human breath <strong>SPME</strong> with GC-MS 10 min @ 40°C from<br />
J. Chromatogr, B. Biomed Appl. 739(1), 183-190<br />
Hyspler, R, Crhova, S. Gasparic, J., Cizkova, M.,<br />
Balasova, V., Zadak, Z.<br />
tedlar bag sample<br />
322 Chloroethenes Determination of Chloroethenes in Environmental Biological<br />
in biological fluids Samples Using GC Coupled with <strong>SPME</strong><br />
Chromatographia 42 (5/6): 313-317 (1996)<br />
Xu, N., Vadegrifts, S., Sewell<br />
660 Halothane Rapid analysis of halothane in biological samples GC-MS<br />
in biological samples using headspace <strong>SPME</strong> and GC-MS -<br />
a case of double homicide<br />
J. Anal. Toxicol. (2000), 24(5), 372-376<br />
Musshoff, G., Junker, H., Madea, B.<br />
867 4-Heptanone Urine 4-heptanone: A beta-oxidation product of GC-MS<br />
in urine 2-ethylhexanoic acid from plasticisers<br />
Clinica Chimica Acta (2001) 306(1-2) 51-61<br />
Walker, Valerie; Mills, Graham A<br />
491 Clozapine in <strong>SPME</strong> for the assay of clozapine in human plasma 100µm PDMS<br />
human plasma Fresenius' J. Anal. Chem, 1999, 364(7), 654-655 30 min<br />
Kruggel, S., Ulrich, S. pH adj. NaOH<br />
843 Levomepromazine <strong>SPME</strong> for the assay of levomepromazine in human plasma 100µm PDMS GC-NPD<br />
in human plasma Therapeutic Drug Monitoring (2000) 22(6), 723-728 30 min @30°c<br />
Kruggel, S., Ulrich, S. chloramitriptyline added<br />
0. 1 M -NaOH<br />
575 Homocysteine in Determination of homocysteine and its related compounds 85µm polyacrylate GC-MS<br />
plasma/water by <strong>SPME</strong>-gas chromatography-mass spectrometry. 30 min immersed<br />
J-Chromatogr,-B:-Biomed-Appl. 30 Apr 1999; 727(1-2): 1-8<br />
Myung,-S-W; Kim,-M-S; Min,-H-K; Yoo,-E-A; Kim,-K-R<br />
pH 3<br />
906 Ranitidine Automated in-tube <strong>SPME</strong>-LC-electrospray ionization mass<br />
spectrometry for the determination of ranitidine.<br />
J. Chromatogr.B (1999), 731(2), 353-359<br />
Kataoka, H., Lord, H., Pawliszyn, J.<br />
LC-MS<br />
949 g-Hydroxybutyrate Determination of gamma-hydroxybutyrate in water and GC-MS<br />
in human urine human urine by <strong>SPME</strong>-GC/quadrupole iontrap MS<br />
and water J. Forensic Sci (2001), 46(3), 688-693<br />
Blair, S.; Song, M.; Hall, B.; Brodbelt, J.<br />
Ambient temperature, unless otherwise indicated. 88
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
869 g-Hydroxybutyrate Simple extraction of gamma-hydroxybutyrate in human whole<br />
in human whole blood by headspace solid-phase microextraction<br />
blood Jpn. J. Forensic Toxicol (2001) 19(1) 38-45<br />
Kurihara, R; Ishii, A; Watanabe-Suzuki, K; Kumazawa, T;<br />
Seno, H; Suzuki, O; Katsumata, Y<br />
405 g-Hydroxybutyric Determination of gamma-Hydroxybutyric Acid (GHB) in 50µm Carbowax/TPR100 GC-PICI-MS<br />
acid in Plasma and Urine by Headspace <strong>SPME</strong> and GC-Positive 70°C, 15 min<br />
plasma, urine Ion Chemical Ionization MS headspace<br />
Rapid Commun. Mass Spec(2000) 14(24), 2401-2407 pH 6-7<br />
Frison, G; Tedeschi, L; Maietti, S; Ferrara, Santo D<br />
323 1-Phenylethylamine Simple Extraction of 1-Phenylethylamine in Human Urine 65µm PDMS/DVB GC-NPD<br />
in urine by Headspace <strong>SPME</strong> 30 min @ 90°C<br />
Jpn. J. Forensic Toxicol. 15(3): 189-193 (1997) 10M NaOH, K2CO3<br />
Ishii, A., Seno, H., Prosen, F., Watanabee, K.,<br />
Kumanzawa, T., Hattori, H., Suzuki, O.<br />
headspace<br />
324 Benzodiazepines Detection of Benzodiazepines in Human Urine by 65µm PDMS/DVB GC-FID<br />
in urine Direct Immersion <strong>SPME</strong>-GC<br />
Jpn. J. Forensic Toxicol. 15 (1): 16-20 (1997)<br />
30 min<br />
Seno, H., Kumazawa, T., Ishii, A.,<br />
Watanbe, K., Hattori, H., Suzuki, O.<br />
immersion<br />
325 Benzodiazepines Determination of Five Benzodiazepines in Aqueous 65µm Carbowax/DVB GC-FID,<br />
in water & urine Solution and Biological Fluids, Using <strong>SPME</strong> with 45°C, 60 min GC-MS<br />
Carbowax/DVB Fiber Coating stirring<br />
J. Microcolumn Sep. 10 (2): 193-201 (1998)<br />
Luo, Y., Pan, L., Pawliszyn, J.<br />
pH 7, salt added<br />
351 Benzophenones <strong>SPME</strong> and GC-ECD of Benzophenones for Detection of 100µm PDMS GC-ECD<br />
in urine Benzodiazepines in Urine 30 min<br />
J. Anal. Toxicology, Vol. 23, Jan/Feb 1999 , 54-61 immersion, stirring<br />
Prosen, F., Seno, H., Ishii, A., Watanabe, K., pH 9.4<br />
Kumazawa, T., Hattori, H., Suzuki, O. KOH added<br />
357 Benzodiazepines <strong>SPME</strong>-Microcolumn LC for the Analysis of Benzodiazepines Carbowax/TPR100 HPLC-UV<br />
in urine in Human Urine 60 min 220nm<br />
Analusis (1998), 26(5), M27-M30<br />
Jinno, K., Taniguchi, M., Hayashida, M.<br />
immersion<br />
779 Benzodiazepines Automated in-tube solid-phase microextraction coupled Supelco-Q capillary LC-ESI-MS<br />
in urine & serum with LC-electrospray ionization MS for the<br />
determination of selected benzodiazepines<br />
J. Anal. Toxicology, (2000) Vol. 24(8),718-725<br />
Yuan, H. ; Mester, Z.; Lord, H.; Pawliszyn, J.<br />
60cmx0.25mm I.d.<br />
326 <strong>SPME</strong> for Sample Preparation During Drug Metabolism Studies<br />
Pharmazie 53 (3): 172-177 (1998)<br />
Kroll, C., Borchert, H.<br />
328 Cyanide Analysis of Cyanide in Blood by Headspace <strong>SPME</strong> and Carbowax/DVB GC-NPD<br />
in blood Capillary GC 50°C, 45 min<br />
Chromatographia 47 (3/4): 209-214 (1998) headspace<br />
Takekawa, K., Oya, M., Kido, A., Suzuki, O. Na2SO4 added<br />
492 Lead in Determination of Lead in Blood and Urine by <strong>SPME</strong>-GC<br />
whole blood & Urine Anal. Chem. 1999, 71(15), 2998-3002 headspace<br />
Yu, X., Yuan, H., Gorecki, T., Pawliszyn, J. sodium tetraethyl<br />
borate derivative<br />
Ambient temperature, unless otherwise indicated. 89
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
747 Lead in Speciation of Alkyllead and Inorganic lead by derivatization 100µm PDMS GC-MS<br />
whole blood & Urine with deuterium-labeled sodium tetraethylborate and 10 min, headspace<br />
<strong>SPME</strong> GC-MS sodium tetraethyl<br />
Anal. Chem. 2000, 72,1788-1792<br />
Yu, X, Pawliszyn, J.<br />
borate derivative<br />
416 Methylmercury Determination of Methylmercury in Biological Samples and 5cm fused silica fiber GC-AA<br />
in biological fluids Sediments by Capillary GC Coupled with Atomic Adsorption 90 min<br />
or sediment after hydride derivatization and <strong>SPME</strong> headspace<br />
J. Anal. At. Spectrom. (1998), 13(10), 1141-1144<br />
He, B., Jiang, G., Ni, Z.<br />
KBH4 derivative<br />
493 Alkalated Hg, Pb, Sn Simultaneous determination of Hg(III) and alkylated Hg, Pb, 100µm PDMS GC-MS-MS<br />
in urine and Sn species in human body fluids using <strong>SPME</strong>-GC-MS-MS 10 min<br />
Fresenius' J.. Anal. Chem. (1999), 363(5-6), 466-468 NaBEt4 derivatives<br />
Dunemann, L., Hajimiragha, H., Begerow, J. pH 5.3<br />
661 Organometallic Coupling of <strong>SPME</strong> and GC-AED for the determination of<br />
organometallic compounds<br />
Mikrochim Acta, (2000) 135 (No.1&2) 91-95<br />
Mothes, S, Wennrich, R.<br />
GC-AED<br />
329 Methanol Simple Extraction of Methanol in Human Whole Blood by Carboxen/PDMS GC-FID<br />
in blood Headspace <strong>SPME</strong> 60°C, 10 min<br />
Jpn. J. Forensic Toxicol. 16 (1): 64-68 (1998) headspace<br />
Lee, X., Kumazawa, T., Jurosawa, T.,<br />
Akiya, K., Akiya, Y., Fruta, S., Sato, K.<br />
stirring<br />
330 Aromatic amines in Solid Phase Microextraction of Monocyclic Aromatic Amines 65µm PDMS/DVB GC-FID<br />
urine, blood, milk from Biological Fluid 45°C, 15 min<br />
Anal. Chem. 70 (9): 1986-1992 (1998) headspace, salt added<br />
DeBruin, L., Josephy, P., Pawliszyn, J. KOH added, pH >13<br />
494 Trimethylamineuria Quantitative determination of trimethylamine in urine by<br />
65µm Carboxen/PDMS, 100µm<br />
PDMS GC-MS<br />
in urine <strong>SPME</strong>-GC-MS 15 min @ 59°C<br />
J. Chromatogr. B: Biomed Sci. Appl., 1999, 723(1+2), 281-285 headspace<br />
Mills, G., Walke, V., Mughal, H. stirred<br />
950 Acrolein Determination of acrolein by headspace <strong>SPME</strong>-GC-MS<br />
in bioligical fluids J. Chromatogr., B: Biomed (2001), 758(1), 123-128<br />
Takamoto, S.; Sakura, N.; Yashiki, M.; Kojima, T.<br />
331 PAHs Fast Screening Method for the Profile Analysis of Polycyclic 85µm polyacrylate GC-MS<br />
in urine Aromatic Hydrocarbon Metabolites in Urine, Using 35°C, 45 min<br />
Derivatization-<strong>SPME</strong> stirring<br />
J. Chromatogr. G: Biomed. Sci. Appl. 705 (1): 132-138 (1998)<br />
Gmeiner, G., Krassnig, C., Schmid, E., Tausch, H.<br />
BSTFA derivative<br />
495 BTEX in <strong>SPME</strong> and GC-MS for determination of monoaromatic 75µm Carboxen/PDMS GC-MS<br />
in urine & blood hydrocarbons in blood and urine. Application to people<br />
exposed to air pollutants<br />
Chromatographia, 1999, 50(3/4), 167-172<br />
Andreoli, R., Manini, P. Bergamaschi, E., Brustolin, A., Mutti. A.<br />
headspace<br />
591 BTEX in Headspace solid-phase micro-extraction for the 100µm PDMS GC-EMIS<br />
urine determination of BTEX in urine. 15 min @ 30°C<br />
J-Chromatogr,-B:-Biomed-Appl. 19 Feb 1999; 723(1-2): 105-115<br />
Fustinoni,-S; Giampiccolo,-R; Pulvirenti,-S; Buratti,-M; Colombi,-A<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 90
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
662 Toluene The comparison of toluene determination between 100µm PDMS<br />
in blood headspace <strong>SPME</strong> and Headspace methods in glue<br />
sniffer's blood and urine samples<br />
J. Forensic Sci. (2000), 45(3), 702-707<br />
Kim, N., Park, S.<br />
496 Toluene, xylene Method for analyzing urinary toluene and xylene by <strong>SPME</strong> 100µm PDMS GC-FID<br />
in urine and its application to workers using organic solvents 5 min,<br />
Bull. Environ, Contam. Toxicol. (1999), 62(2), 109-116<br />
Asakawa, F., Jitsunari, F., Choi, J., Suna, S., Takeda, N.,<br />
Kitamado, T.<br />
NaCl, stirring<br />
497 Toluene, benzene Biomonitoring of benzene and toluene in human blood by 65µm Carboxen/PDMS GC-MS<br />
in human blood headspace <strong>SPME</strong> 30 min @ 20°C<br />
Fresenius' J. Anal. Chem. (1999), 363(1)m 88-91<br />
Schimmiing, E., Levsen, K., Koehme, C., Schuermann, W.<br />
headspace<br />
332 Erythromycin A Study of Erythromycin A Decomposition Products in 65µm PDMS/DVB LC-MS<br />
in water Aqueous Solution by <strong>SPME</strong>-LC-MS 15 min<br />
Rapid Commun. Mass Spectrom. 10 (2): 225-234 (1998) immersed<br />
Volmer, D., Hui, J. 50% MeOH extr.<br />
333 Corticosteroids Rapid Determination of Corticosteroids in Urine by Combined LC-MS<br />
in urine <strong>SPME</strong>-LC-MS<br />
Rapid Commun. Mass Spectrom. 11 (17): 1926-1934 (1997)<br />
Volmer, D., Hui, J.<br />
663 Beta blockers Polypyrrole coated capillary in-tube <strong>SPME</strong> coupled Polypyrrole capillary LC-ESI-MS<br />
in urine, serum with HPLC electrospray ionization MS for the<br />
determination of beta blockers in urine and serum samples<br />
J. Microcolumn Sep. (2000) 12(4), 255-266<br />
Wu, J., Lord, H., Pawliszyn, J., Kataoka, H.<br />
334 Flavor compounds Evaluation of <strong>SPME</strong> for Analysis of Volatile Metabolites 100µm PDMS, GC-FID<br />
in staphylococci Produced by Staphylococci 85µm polyacrylate<br />
J. Agric. Food Chem. 46 (1): 228-234 (1998) headspace<br />
Vergnaise, L., Masson, F., Montel, M., Berdague, J., Talon, R. stirring, salt added<br />
pH 3 for esters<br />
498 Aldehydes, esters Application of <strong>SPME</strong> to measure volatile metabolites<br />
100µm PDMS, 85µm<br />
polyacrylate GC-FID<br />
from bacteria produced by Staphylococcus carnosus and 15 min, stirring<br />
Staphylococcus xylosus esters @ 80°C,<br />
Book- Applied <strong>SPME</strong>, 1999, 364-371 Royal Society of aldehydes @ 25°C<br />
Chemistry, Cambridge, UK Coden: 67TUA8<br />
Talon, R, Montel, M.<br />
headspace<br />
392 Volatile metabolites Application of Head-Space <strong>SPME</strong> for the Analysis of Volatile 100µm PDMS, GC-MS<br />
in penicillium fungi Metabolites Emitted by Penicillium Species 85µm polyacrylate<br />
J. Microbiological Methods, 25 (1996) 245-255 25°C, 30 min (PDMS),<br />
Nilsson, T., Larsen, T., Montanarrella, L., Madsen, J. 50 min (PA)<br />
895 Volatile metabolites Biotransformation of (R)-(+)- and (S)-(-)-limonene by<br />
from limonen fungi and the use of <strong>SPME</strong> for screening.<br />
Phytochemistry (Oxford) (2001) 57(2) 199-208<br />
Demyttenaere, J.; De Kimpe, N; Van Belleghem, K<br />
802 Volatile metabolites Biotransformation of geraniol, nerol and citral by sporulated<br />
in penicillium fungi surface cultures of Aspergillus niger and Penicillium sp.<br />
Phytochemistry (2000) 55(4), 363-373<br />
Demyttenaere, J.,del Carmen Herrera, M.; De Kimpe, N<br />
Ambient temperature, unless otherwise indicated. 91
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
393 Volatiles in Use of Digital Aroma Technology and <strong>SPME</strong> GC-MS to Compare 100µm PDMS GC-MS<br />
bacteria on poultry Volatile Compounds produced by Bacteria Isolated from 37°C, 30 min<br />
Processed Poultry<br />
J. Sci Food Agric. 1998, 78, 343-348<br />
Arnold, J., Senter, S.<br />
headspace<br />
664 Volatiles in Evaluation of <strong>SPME</strong> for the Isotopic Analysis of volatile 70µm Carboxen/PDMS GC-C-IRMS<br />
lactic acid bacteria compounds produced during fermentation by lactic 10 min<br />
acid bacteria headspace<br />
J. Agric Food Chem. 2000, 48, 2222-2227<br />
Goupry, S., Rochut, N., Robins, R., Gentil, E.<br />
salt added<br />
570 Fatty acid esters Headspace <strong>SPME</strong> with l-pyrenyldiazomethane in-fiber 85µm polyacrylate GC-EMIS<br />
in faeses derivatization for analysis of fecal short-chain fatty acids 15 min<br />
J-Chromatogr,-B:-Biomed-Appl. 25 Jun 1999; 730(1): 113-122 1-pyrenyldiazomethane<br />
Mills,-GA; Walker,-V; Mughal,-H derivative<br />
335 Cannabinoids Determination of Cannabinoids in Water and Human Saliva by 30µm PDMS GC-MS<br />
in water/saliva <strong>SPME</strong> and Quadrupole Ion Trap GC-MS 10 min<br />
Anal. Chem. 70 (9): 1788-1796 (1998)<br />
Hall, B., Satterfield-Doeerr, M., Parikh, A., Brodbelt, J.<br />
immersion<br />
665 Dibenzylamine Direct comparison of SPE and <strong>SPME</strong> for the GC 85µm polyacrylate GC-MS<br />
in saliva determination of dibenzylamine in artificial saliva<br />
leachates from baby bottle teats<br />
Anal Chim Acta 2000, 414(1-2), 133-140<br />
Niessner, G., Klampfl, C.<br />
pH 10<br />
340 Cannabinoids Solid-Phase Microextraction for Cannabinoids Analysis in Hair 30µm PDMS GC-MS<br />
in hair and Its Possible Application to Other Drugs 15 min, immersion<br />
J. Anal. Toxicology, Vol. 23, Jan./Feb. 1999 hair digested with<br />
Strano-Rossi, S., Chiarotti, M. 1N NaOH<br />
666 Lipophilic drugs Use of headspace <strong>SPME</strong> in hair analysis for<br />
in hair organic compounds headspace<br />
Forensic Sci. Int. (2000), 107(1-3), 129-148 hair digested with<br />
Sporkiert, F., Pragst, F. 4% NaOH<br />
941 Lipophilic drugs Analysis of hair by headspace <strong>SPME</strong> and GC-MS. headspace<br />
in hair Chromatogr Separation Tech (2001), 17(2), 4-8 hair digested with<br />
Pragst, F 4% NaOH<br />
336 Review of use <strong>SPME</strong> in Forensic Toxicology various fibers<br />
Jpn. J. Forensic Toxicol. 16 (1): 1-15 (1998)<br />
Namera, A., Yashiki, M., Kojima, T., Fukunaga, N.<br />
and conditions<br />
337 Acylcarnitines Determination of Urinary Acylcarnitines by ESI-MS Coupled ESI-MS<br />
in urine with <strong>SPME</strong><br />
J. Mass Spectrom. 32 (11): 1195-1204 (1997)<br />
Mioder, M., Loster, H., Hraschuh, R., Popp, R.<br />
499 Methylxanthines Extraction of methylxanthines from human body fluids 65µm Carbowax/DVB GC-NPD<br />
in blood/urine by <strong>SPME</strong> 1 hr @ 40°C<br />
Anal. Chim. Acta., 1999, 387(1), 53-60<br />
Kumazawa, T., Seno, H., Lee, X., Ishii, A.<br />
1ml of 1M HCl04<br />
414 Organic acid esters Urinary Organic Acid Screening by <strong>SPME</strong> of the Methyl Esters 85µm polyacrylate GC-FID, -MS<br />
in urine J. Chromatogr. B: Biomed Sci. Appl. (1998), 713(2), 427-432 20 min<br />
Liebich, H., Gesele, E., Woll, J. immersion w/stirring<br />
trimethyloxonium<br />
tetrafluoroborate<br />
Ambient temperature, unless otherwise indicated. 92
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
667 Semivolatile Validation of negligible depletion <strong>SPME</strong> as a tool to<br />
in tissue/blood determine tissue/blood partition coefficient for semivolatiles<br />
and nonvolatile organic chemicals<br />
Toxicol. Appl. Pharmacol. (2000), 166(2), 138-144<br />
Garicano, E., Vaes, W., Hermens, J.<br />
415 New Mass Spectrometric Methods for the Fast Analysis<br />
of Biomedical-Relevant Substances<br />
CLB Chem. Labor Biotech. (1998), 49(11), 414-420<br />
Volmer, D.<br />
GC-MS<br />
417 Verpamil & <strong>SPME</strong>-HPLC Determination of Verpamil and Norverpamil HPLC<br />
norverapamil Enantiomers in Urine<br />
in urine J. Mass Spectrom. (1997), 32(11), 1195-1204<br />
Asafu-Adjaye, E., Shiu, G.<br />
971 Pesticides in water Pesticide toxicity assessment using an electrochemical biosensor.<br />
Analytical and Bioananalytical Chemistry (2002) 373(8), 696-703<br />
Farre, M.; Goncalves, C.; Lacorte, S.; Barcelo, D.; Alpendurada, M.F.<br />
GC-MS<br />
1034 Jet fuel in porcine skin.<br />
1050 PAH<br />
1294<br />
1349<br />
1381<br />
1391<br />
1417<br />
Fatty acid ethyl esters in<br />
hair<br />
Tricyclic antidepressants<br />
in urine.<br />
Fatty acid ethyl esters in<br />
hair.<br />
Absorption through porcine skin exposed to various doses of jet fuel marker<br />
components determined with GC-FID using head space <strong>SPME</strong> fiber.<br />
Toxicological Sciences (2003) 72 (S-1), 383.<br />
Xia, X. R.; Riviere, J. E.; Muhammad, F.; Monteiro-Riviere, N. A.; Baynes, R.<br />
E.<br />
Determination of selected monohydroxy metabolites of 2-, 3- and 4-ring<br />
polycyclic aromatic hydrocarbons in urine by solid-phase microextraction<br />
and isotope dilution gas chromatography-mass spectrometry. GC-MS<br />
Journal of Chromatography, B: Analytical Technologies in the Biomedical<br />
and Life Sciences (2002) 778 (1-2), 157-164.<br />
Smith, C. J.; Walcott, C. J.; Huang, W. L.; Maggio, V.; Grainger, J.;<br />
Patterson, D. G., Jr.<br />
Biomimetic solid-phase microextraction to predict body residues and toxicity<br />
of chemicals that act by narcosis.<br />
Environmental Toxicology and Chemistry (2002) 21(2), 229-234<br />
Leslie, Heather A.; Busser, Frans J. M.; Hermens, Joop L. M.; Kraak,<br />
Michiel H. S.; Oosthoek, Annelies J. P.<br />
GC-MS<br />
Fatty acid ethyl esters in hair as markers of alcohol consumption.<br />
Segmental hair analysis of alcoholics, social drinkers, and teetotalers. GC-MS<br />
Clinical Chemistry (2001) 47(12), 2114-2123.<br />
Auwaerter, V.; Sporkert, F.; Hartwig, S.; Pragst, F. *; Vater, H.;<br />
Diefenbacher, A.<br />
Sample preparation with fibre-in-tube solid-phase microextraction for<br />
capillary electrophoretic separation of tricyclic antidepressant drugs in<br />
human urine.<br />
Electrophoresis (2001) 22(17), 3785-3790.<br />
Jinno, K.; Kawazoe, M.; Saito, Y.; Takeichi, T.; Hayashida, M.<br />
Analysis of fatty acid ethyl esters in hair as possible markers of chronically<br />
elevated alcohol consumption by headspace solid-phase microextraction<br />
(HS <strong>SPME</strong> ) and gas chromatography-mass spectrometry (GC-MS). 65 um PDMS/DVB GC-MS<br />
Forensic Science International (2001) 121(1-2), 76-88.<br />
Pragst, F.; Auwaerter, V.; Sporkert, F.; Spiegel, K.<br />
Pollution prevention screening of simulated Hanford waste for<br />
polychlorinated biphenyls by solid phase microextraction/GC-ECD.<br />
Abstracts of Papers American Chemical Society (2001) 222(1-2), ANYL118.<br />
Okemgbo, Asopuru A.; Metcalf, Steven G.<br />
Ambient temperature, unless otherwise indicated. 93
1438<br />
1489<br />
1501<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Methylene chloride in<br />
urine<br />
Fentanyl and midazolam<br />
in plasma<br />
Amphetamines and<br />
designer drugs in hair<br />
1511 Drugs of abuse<br />
1021<br />
1530<br />
Monitoring of occupational exposure to methylene chloride: Sampling<br />
protocol and stability of urine samples.<br />
Journal of Toxicology Clinical Toxicology (2003) 41(5), 735-735<br />
Tabak, A.; Scherb, I.; Hoffer, E.; Bentur, Y.; Weiner, A.<br />
Simultaneous determination of fentanyl and midazolam in plasma using<br />
direct solid-phase microextraction before gas chromatography-mass<br />
spectrometry analysis.<br />
Analytical Letters (2002) 35(9), 1575-1590<br />
Dufresne, C.; Bureau, J.; Favetta, P.; Gonin, R.; Guitton, J.<br />
Fully automated determination of amphetamines and synthetic designer<br />
drugs in hair samples using headspace solid-phase microextraction and gas<br />
chromatography-mass spectrometry.<br />
Journal of Chromatographic Science (2002) 40(6), 359-364<br />
Musshoff, Frank; Junker, Heike P.; Kroener, Lars; Lachenmeier, Dirk W.;<br />
Madea, Burkhard<br />
Detection and identification of illicit drugs including GHB, Rohypnol,<br />
Ketamine, and Psilocybin by refocused Solid Phase Microextraction High<br />
Performance Liquid Chromatography Mass Spectrometry,<br />
(<strong>SPME</strong>/HPLC/MS).<br />
Abstracts of Papers American Chemical Society (2002) 223(1-2), ANYL 54<br />
Sabucedo, Alberto; Furton, Kenneth G.; Benson, Andrew; Almirall, Jose<br />
65um PDMS/DVB<br />
GC-MS<br />
HPLC-MS<br />
allyl alcohol (2-propen-1-<br />
A fatal human intoxication with the herbicide allyl alcohol (2-propen-1-ol).<br />
ol)<br />
Journal of Analytical Toxicology (2002) 26(1), 55-57<br />
Toennes, S. W.; Schmidt, K.; Fandino, A. S.; Kauert, G. F.<br />
GC-MS<br />
Residual solvents in<br />
cocaine<br />
Gas chromatographic-mass spectrometric analysis of residual solvent<br />
trapped into illicit cocaine exhibits using head-space solid-phase<br />
microextraction<br />
Journal of Chromatography B (2002) 772(2), 249-256<br />
Chiarotti, Marcello; Marsili, Remo; Moreda-Pineiro, Antonio<br />
Forensics<br />
748 Review The use of <strong>SPME</strong>-GC in forensic analysis<br />
J. Chromatogr. Sci. (2000), 38(7), 297-306<br />
Furton, K., Wang, J., Hsu, Y. Walton, J, Almirall, J.<br />
headspace GC-MS<br />
500 Gasoline The detection and analysis of ignitable liquid residues 100µm PDMS GC-FID<br />
on skin extracted from human skin using <strong>SPME</strong>-GC 15 min<br />
Almirall, J., Wang, J., Lothridge, K, Furton, K. headspace<br />
85 Accelerants A Simple, Inexpensive, Rapid, Sensitive and Solventless 100µm PDMS GC-FID<br />
in fire debris Technique for the Analysis of Accelerants in Fire 40°C, 20 min<br />
Debris Based on <strong>SPME</strong><br />
J. High Res. Chromatogr. 18: 625-629 (1995)<br />
Furton, K., Bruna, J., Almirall, J.<br />
headspace<br />
105 Gasoline, kerosene Forensic Application of the <strong>SPME</strong> Method to the Analysis 100µm PDMS GC-NPD<br />
in fire debris of Gasoline and Kerosene 22°C for 1 hr, or<br />
Kaneko, T., Nakada, M. 80°C for 5 min<br />
headspace<br />
114 Accelerants Novel Method for Analysis of Gasoline from Fire Debris Using 100µm PDMS GC-FID<br />
in fire debris Headspace Solid Phase Microextraction<br />
J. Forensic Sci. 41: 12-22 (1996)<br />
Furton, K., Almirall, J., Bruna, J.<br />
40°C, 20 min<br />
Ambient temperature, unless otherwise indicated. 94
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
115 Accelerants The Recovery of Accelerants in Aqueous Samples from Fire 100µm PDMS GC-FID<br />
in liquid residue Debris Using <strong>SPME</strong> 20 min @ 40°C<br />
Science & Justice 36 (4): 283-287 (1996)<br />
Almirall, J., Furton, K., Bruna, J.<br />
143 Accelerants Determination of Liquid Accelerants in Arson Suspected Fire 100µm PDMS GC-FID<br />
in fire debris Debris Using Headspace <strong>SPME</strong> 15 min @ 70°C<br />
Anal. Commun. 33: 129 (1996)<br />
Steffen, A., Pawliszyn, J. headspace<br />
594 Accelerants A comprehensive sample preparation scheme for a GC, GC-MS<br />
in fire debris accelerants in suspect arson cases.<br />
J-Forensic-Sci. May 1999; 44(3): 504-515<br />
Ren,-QL; Bertsch,-W<br />
668 TNT, 2,4-DNT, RDX Development of field screening methods for TNT, 2,4-DNT,<br />
in soil and RDX in soil.<br />
Talanta, 39: 419-28 (1992)<br />
T Jenkens, et al<br />
812 RDX, HMX Detection of the cyclic nitramine explosives hexahydro 65µm PDMS/DVB GC-MS<br />
in soil 1,3,5-trinitro-1,3,5-triazine (RDX) and octahydro-1,3,5,7- 20MIN @55°c LC-MS<br />
tetranitro-1,3,5,7-tetrazine (HMX) and their degradation<br />
products in soil environments<br />
J Chromatog A (2001) 909(1), 53-60<br />
Hawari, J; Beaudet, S; Groom, C.; Halasz, A; Paquet, L<br />
PFBHA derivative<br />
344 explosives Trace Analysis of explosives in Seawater Using <strong>SPME</strong> and 65µm Carbowax/DVB GC-MS<br />
in salt water GC-Ion Trap Mass Spectrometry 60 min<br />
Anal. Chem., Vol. 70, No. 14, July 15, 1998, pg. 3015-3020 immersion<br />
Barshick, S., Griest, W. stirring<br />
669 Explosives Application of <strong>SPME</strong> to the recovery of explosives and 65µm Carbowax/DVB GC-ECD<br />
from solids, water ignitable liquid residues from forensic specimens 25 min, 25% NaCl HPLC<br />
J. Chromatogr A, 885(2000) 419-432 immersion<br />
Furton, K., Almirall, J., Bi, M., Wang, J., Wu, L. stirring<br />
592 explosives An improved interface for coupling <strong>SPME</strong> to HPLC 50µm Carbowax/TPR HPLC-UV<br />
in water applied to the analysis of explosives<br />
J-High-Resolut-Chromatogr. May 1999; 22(5): 279-282<br />
Wu,-L; Almirall,-JR; Furton,-KG<br />
254nm<br />
886 Explosives Optimization of <strong>SPME</strong> for the recovery of explosives from 65µm Carbowax/DVB GC-ECD<br />
from solids, water aqueous and post-explosion debris followed by gas and 50µm Carbowax/TPR HPLC<br />
liquid chromatographic analysis 30 min, 25% NaCl<br />
J. Forensic Sci. 45: 845-852 (2000) immersion<br />
Furton, K., Wu, L., Almirall, J. stirring<br />
985<br />
Acetic and formic acid in<br />
museum environment<br />
Acetic acid and formic acid concentrations in the museum environment<br />
measured by <strong>SPME</strong>-GC/MS Polyacrylate GC-MS<br />
Atmospheric Environment (2002) 36 (24), 3909-3916<br />
Ryhl-Svendsen, M.; Glastrup, J.<br />
986 Explosives in soil Detection of explosives and their degradation products in soil environments.<br />
J.Chromatogr. A (2002) 963(1-2), 411-418<br />
Halasz, A.; Groom, C.; Zhou, E.; Paquet, L.; Beaulieu, C.; Deschamps, S.;<br />
Thiboutot, S.; Ampleman, G.; Dubois, C.; Hawari, J.<br />
GC-MS<br />
989<br />
Methylmercury in human<br />
hair<br />
Determination of methylmercury in human hair by ethylation followed by<br />
headspace <strong>SPME</strong>/GC GC-CVAFS<br />
J.Chromatogr. A (2002) 963(1-2), 345-351<br />
Diez, S.; Bayona, J.M.<br />
Ambient temperature, unless otherwise indicated. 95
990<br />
991<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Methylmercury in<br />
biologicals<br />
Ethanol in post-mortem<br />
samples.<br />
Methylmercury determination in biological samples by derivatization, <strong>SPME</strong><br />
and GC.<br />
J.Chromatogr. A (2002) 963(1-2), 313-323<br />
Rodil, R.; Carro, A.M.; Lorenzo, R. A.; Abuin, M.; Cela, R.<br />
PDMS GC-MS<br />
Automated headspace <strong>SPME</strong> and capillary GC analysis of ethanol in postmortem<br />
species.<br />
Forensic Science International (2002) 128(3), 115-119.<br />
de Martinis, B.S.; Santos Martin, C.C.<br />
Polyacrylate GC<br />
1003 L-methadone Fatal mixed intoxication caused by L-methadone and chloral hydrate.<br />
Archiv fuer Kriminologie (2003) 211 (3-4), 90-97.<br />
Weinmann, Wolfgang; Goerke, Rolf; Perdekamp, Markus Grosse; Thurau,<br />
Kirsten; Vogt, Susanne<br />
GC-MS<br />
1013 TNT in sediment<br />
1025<br />
Drugs of abuse in hair<br />
samples.<br />
1031 Fatty acid esters in hair.<br />
1033<br />
Nondestructive, minimal-disturbance, direct-burial solid-phase<br />
microextraction fiber technique for measuring TNT in sediment Polyacrylate<br />
Environmental Science and Technology (2003) 37 (8), 1625-1632.<br />
Conder, Jason M.; La Point, Thomas W.; Lotufo, Guilherme R.; Steevens,<br />
Jeffery A.<br />
Aplication of tandem mass spectrometry combined with gas<br />
chromatography and headspace solid-phase dynamic extraction for the<br />
determination of drugs of abuse in hair samples. PDMS GC-MS-MS<br />
Rapid Communications in Mass Spectrometry (2003) 17 (5), 472-478.<br />
Lachenmeier, Dirk W.; Kroener, Lars; Madea, Burkhard; Musshoff, Frank<br />
Fatty acid ethyl esters in scalp, pubic, axillary, beard and body hair as<br />
markers for alcohol misuse.<br />
Alcohol and Alcoholism (2003) 38 (2), 163-168.<br />
Pragst, Fritz; Auwaerter, Volker; Hartwig, Sven<br />
Investigation by solid-phase microextraction and gas chromatography/mass<br />
spectrometry of secondary metabolites in lichens deposited on stone<br />
monuments. GC-MS<br />
Rapid Communications in Mass Spectrometry (2003) 17 (6), 526-531.<br />
Di Tullio, Alessandra; De Angelis, Francesco; Ceci, Roberta; Quaresima,<br />
Raimondo; Reale, Samantha<br />
1079 Review article ASTM standards for fire debris analysis: A review.<br />
Forensic Science International (2003) 132 (1), 63-67.<br />
Stauffer, Eric; Lentini, John J.<br />
1135 Cannabinoids in hair.<br />
1242 Drugs of abuse in hair.<br />
1273<br />
Gamma-hydroxybutyric<br />
acid<br />
Fully automated determination of cannabinoids in hair samples using<br />
headspace solid-phase microextraction and gas chromatography-mass<br />
spectrometry. GC-MS<br />
Journal of Analytical Toxicology (2002) 26 (8), 554-560.<br />
Musshoff, F.; Junker, H. P.; Lachenmeier, D. W.; Kroener, L.; Madea, B.<br />
Application of tandem mass spectrometry combined with gas<br />
chromatography and headspace solid-phase dynamic extraction for the<br />
determination of drugs of abuse in hair samples. GC-TMS<br />
Rapid Communications in Mass Spectrometry (2003) 17 (5), 472-478.<br />
Lachenmeier, D. W.; Kroener, L.; Musshoff, F.; Madea, B.<br />
Development of a GC/MS method for detection of gamma-hydroxybutyric<br />
acid (GHB) and its precursors. GC-MS<br />
Abstracts of Papers American Chemical Society (2003) 225 (1-2), CHED<br />
209.<br />
Helwig, Katie; Dema, Anne C.; Wetmore, Lori A.<br />
Ambient temperature, unless otherwise indicated. 96
1286<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Thiopental and<br />
pentobarbital in hair.<br />
1287 Cannabinoids in hair.<br />
1293 Drugs of abuse in saliva<br />
1509 Gamma-hydroxybutyric<br />
acid (GHB)<br />
1548 Methamphetamine<br />
1550 Gamma-hydroxybutyrate<br />
(GHB) in human urine<br />
1235<br />
1328<br />
1556<br />
1557<br />
Detection of thiopental and pentobarbital in head and pubic hair in a case of<br />
drug-facilitated sexual assault. GC-MS-MS<br />
Forensic Science International (2003) 133 (1-2), 171-174.<br />
Ferrara, Santo Davide; Favretto, Donata; Frison, Giampietro; Tedeschi,<br />
Luciano<br />
Automated headspace solid-phase dynamic extraction for the determination<br />
of cannabinoids in hair samples. GC-MS<br />
Forensic Science International (2003) 133 (1-2), 32-38.<br />
Musshoff, Frank; Kroener, Lars; Lachenmeier, Dirk W.; Madea, Burkhard<br />
Simultaneous detection of some drugs of abuse in saliva samples by <strong>SPME</strong><br />
technique. GC/MS<br />
Forensic Science International (2003) 134 (1), 40-45.<br />
Fucci, Nadia; Chiarotti, Marcello; De Giovanni, Nadia<br />
<strong>SPME</strong> on-fiber derivatization of gamma-hydroxybutyric acid (GHB) in<br />
forensic analysis.<br />
Abstracts of Papers American Chemical Society (2002) 223(1-2), ANYL 134<br />
Meyers, Jodi E.; Almirall, Jose R.; Galiana, Gigi<br />
<strong>SPME</strong>/GC-MS characterization of volatiles associated with<br />
methamphetamine: Toward the development of a pseudomethamphetamine<br />
training material.<br />
Journal of Forensic Sciences (2002) 46(5), 1014-1024<br />
Vu, Doan-Trang T.<br />
Determination of gamma-hydroxybutyrate in water and human urine by solid<br />
phase microextraction-gas chromatography/quadrupole ion trap<br />
spectrometry.<br />
Journal of Forensic Sciences (2002) 46(3), 688-693<br />
Brodbelt, Jennifer; Blair, Sheryl; Hall, Brad; Song, Meansup<br />
Identification of canis familiaris active odor signature chemicals in controlled<br />
substances and high explosives.<br />
Abstracts of Papers American Chemical Society (2003) 225 (1-2), PRES 25.<br />
Lopez, Claudia; Furton, Kenneth G.; Harper, Ross; Hsu, Ya-Li; Walton, John<br />
GC-MS<br />
65 um PDMS/DVB GC-MS<br />
Laboratory and field experiments used to identify Canis lupus var. familiaris<br />
active odour signature chemicals from drugs, explosives, and humans.<br />
Analytical and Bioanalytical Chemistry (2003) 376 (8), 1212-1224.<br />
Lorenzo, N.; Wan, T. L.; Harper, R. J.; Hsu, Y. L.; Chow, M.; Rose, S.;<br />
Furton, K. G.*<br />
CW/DVB and PDMS GC-ECD & GC-M<br />
TNT isomers from land<br />
mines Chemical signatures of TNT-filled land mines.<br />
Talanta 54(3), 2001, 501-514.<br />
Jenkins, T; Leggett, D; Miyares, P.; Walsh, M.; Ranney, T.; Cragin, J.H.;<br />
George, V.<br />
Headspace<br />
Odor chemicals from<br />
explosives.<br />
The scientific foundation and efficacy of the use of canines as chemical<br />
detectors for explosives.<br />
Talanta 54(3), 2001, 487-500.<br />
Furton, K.G.; Myers, L.J.<br />
1897 Terpenes in Headspace <strong>SPME</strong> for screening for the presence of headspace GC<br />
resins resins in Egyptian archaeological samples.<br />
J Separation Sci, 27, #3, 235-243<br />
Hamm, Sandrine; Bleton, Jean; Tchapla, Alain<br />
Ambient temperature, unless otherwise indicated. 97
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1898 Methyl Improvements in the methylmercury extraction from headspace GC-cold vapour<br />
mercury from human hair by headspace <strong>SPME</strong> followed by GC- ethyl derivative atomic spectromet<br />
human hair cold-vapour atomic flourescence spectrometry<br />
J Chromatogr A, 1025, #1, 71-75<br />
Montuori, P; Jover, E; Alzaga, R; Diez, S; Bayona, J.<br />
1899 TNT in sand Transport of explosives TNT in soil and its Headspace for 20min TEEM-GC/MS<br />
equilibrium vapor immersion in GC/ECD<br />
Proc SPIE Int Soc Opt Eng, 5415, #2, 1389-1399 water extract<br />
Baez, B; Briano, J; Castro, M.; Correa, S; De Jes, M.;<br />
Hernandez-Rivera, Samuel P.; Mina, Nairmen<br />
1900 Oxidation Oxidation of TNT by photo-Fenton process GC-MS<br />
byproducts of Chemosphere, 57, #9, 1107-1114<br />
TNT Chen, Jong-Nan; Liou, Ming-Jer; Lu, Ming-Chun<br />
1901 Ammonium New developments in <strong>SPME</strong>. Part 2: analysis of Alkylchloroformate GC-MS<br />
nitrate ammonium nitrate-based explosives. derivative<br />
explosive J Forensic Sci, 49, #2, 215-221<br />
Brown, H.; Kirkbride, K.*; Pigou, P. .; Walker, G.<br />
1902 Signature odor Laboratory and field experiments used to identify Canis 50µm CW/DVB GC/MS<br />
explosives lupus var. familiaris active odor signature chemicals PDMS coatings GC/ECD<br />
drugs, and from drugs, explosives, and humans<br />
humans Anal. Bioanal. Chem., 376, #8, 1212-1224<br />
Chow, M.; Furton, K.; Harper, R.; Hsu, Ya-Li.;<br />
Lorenzo, N.; Rose, S.; Wan,T.<br />
1903 TATP in Improved method for the detection of TATP after explosion 65µm PDMS-DVB GC/MS<br />
post J Forensic Sci, 49, #5, 935-938 headspace<br />
explosives Muller, D.; Levy, A.; Shelef, R.; Abramovich-Bar, S.;<br />
Sonenfeld, D.; Tamiri, T.<br />
1904 GHB in water Analysis of gamma-hydroxybutyric acid (GHB) in spiked derivative on-fiber GC-MS<br />
water and beverage samples using <strong>SPME</strong> on fiber<br />
derivatization/gas chromatography-mass spectrometry<br />
J Forensic Sci, 50, #1, 31-36<br />
Meyers, Jodi E.; Almirall, Jose R.<br />
1905 Explosives Solid phase microextraction with GC/MS for the GC-MS<br />
in soil, water, trace analysis of explosives GC-ECD<br />
and swab Proc. 50th ASMS Conf. Mass Spectrom. Allied Top.<br />
samples 2002, p669-670<br />
Maslanka, D; McDonald, J.; Miller, M.<br />
1906 FAEE from Wipe-test and patch-test for alcohol misuse based headspace GC-MS<br />
skin samples on the concentration ratio of fatty acid ethyl esters LC-PDA<br />
and squalene C FAEE / C SQ in skin surface lipids.<br />
Forensic Sci Intl, 143, #2-3, 77-86<br />
Pragst, F.; Auwaerter, V.; Kiessling, B.; Dyes, C.<br />
1907 Methyl Headspace <strong>SPME</strong> for the GC analysis of methyl- 85µm polyacrylate GC-NPD<br />
parathion parathion in postmortem human samples: application headspace<br />
in biological in a suicide case by intravenous injection. salt added<br />
samples Forensic Sci Intl, 143, #2-3, 127-132<br />
Tsoukali, H.; Raikos, N.; Theodoridis, G.; Psaroulis, D.<br />
1908 Cocaine in Detection of cocaine and cocaethylene in sweat immersed in 0.2M GC-MS<br />
sweat by <strong>SPME</strong>-GC-MS sodium acetate buffer<br />
J. Chromatogr. B, 811, #1, 37-40 pH 5<br />
Follador, M; Moreau, R; Silva, O.; Yonamine, M.<br />
1909 PAHs in identification of gasoline soot in suspect arson 100µm PDMS GC-MS<br />
gasoline soot cases by using headspace <strong>SPME</strong>-GC-MS 75µm Carboxen<br />
Analytical Letters, 236, #7, 1373-1384 heaspace<br />
Wu, Chia-Hao; Chen, Chin-Lien; Huang, Ching-Te;<br />
Lee, Maw-Rong; Huang, Chih-Ming<br />
Ambient temperature, unless otherwise indicated. 98
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1910 Propane in Quantification of propane in biological materials headspace GC-MS<br />
biological by headspace GC<br />
materials Forensic Science International, 151, #2-3, 165-170<br />
Park, J; Min, Ji-Sook; Heo, S.; Lim, Mi-Ae; Park, S<br />
1911 Volatile The study of fingerprint characteristics of the emanations headspace GC-MS<br />
organics from human arm skin using the original sampling 30min sampling<br />
from human system by <strong>SPME</strong>-GC-MS<br />
skin J. Chromatogr. B, 822, #1-2, 244-252<br />
Cai, Ji-Jin; Li, Gong-Ke; Ruan, Gui-Hua; Zhang, Zhuo-Min<br />
1912 Capsaicin Extraction of capsaicin in aerosol defense sprays from fabrics headspace GC<br />
from fabrics Talanta, 67, #2, 377-382<br />
Almirall, Jose R.; Spicer Jr., Oliver<br />
1913 Odor Identification of dominant odor chemicals emanating from headspace GC-MS<br />
chemicals in explosives for use in developing optimal training aid GC-ECD<br />
explosive combinations and mimics for canine detection<br />
Talanta, 67, #2, 313-327<br />
Almirall, Jose R.; Furton, Kenneth G.; Harper, Ross J.<br />
Environmental<br />
1914 Auto exhaust Formation and reaction of hydroxycarbonyls from the pentafluorobenzyl API-MS<br />
reaction of OH radicals with 1,3-butadiene and isoprene hydroxyl amine GC/FID<br />
Environ. Sci. Technol., 39. #11, 4091-4099 derivatives<br />
Arey, Janet; Atkinson, Roger; Baker, Jillian<br />
1915 Carboxylic Photochemical sources of organic acids. 1. Reaction headspace GC-MS<br />
acids of ozone with isoprene, propene, and 2-butenes<br />
in air under dry and humid conditions using <strong>SPME</strong><br />
J Phys Chem A, 109, #24, 5358-5365<br />
Orzechowska, Grazyna; Paulson, Suzanne<br />
1916 Byproducts Rate coefficients for the gas-phase reaction of headspace GC/FID<br />
of reactions isoprene with N0 3 and NO 2<br />
Int J Chem Kinet, 37, #2, 57-65<br />
Johnson, M.; Langer, S.; Stabel, J.<br />
1917 Hydroxyl- 1,4-Hydroxycarbonyl products of the OH radical initiated on-fiber hydroxylamine GC-MS<br />
carbonyls reactions of C5-C8 n-alkanes in the prescence of NO derivatives GC/FID<br />
in Air Environ. Sci. Technol., 39. #12, 4447-4453<br />
Arey, Janet; Aschmann, Sara M.; Atkinson, Roger; Reisen, F<br />
1918 Volatile sulfur Occurrence and abatement of volatile sulfur headspace GC-MS<br />
from biogas compounds during biogas production<br />
production J. Air Waste Manage. Assoc, 54, #7, 855-861.<br />
Andersson, F.; Ejlertsson, J.; Karlsson, A.; Svensson, B.<br />
1920 Sulfur compd Headspace <strong>SPME</strong> followed by GC/PFPD for the analysis of 65µm PDMS-DVB GC/PFPD<br />
industrial malodorous sulfur compounds liquid industrial effluents 75µm Carboxen<br />
effluents Anal and Bioanal Chemistry, 378, #1, 190-196 5 or 60 min<br />
Desauziers, V.; Fanlo, Jean-Louis; Lestremau, F. headspace<br />
1921 PAHs in Air/polymer distribution coefficients for PDMS coated fibers GC-MS<br />
air PAHs by <strong>SPME</strong> sampling.<br />
J Chromatography, A, 1029, #1-2, 263-266<br />
Kolar, K.; Ciganek, M.; Malecha, J.<br />
1922 Organo- Selective extraction of trace levels of polychlorinated and GC/MS/MS<br />
halogenated polybrominated contaminants by supercritical fluid-<strong>SPME</strong> and<br />
in fish feed determination by GC-MS. Application to aquaculture fish<br />
feed and cultured marine species<br />
Anal. Chem., 77, #7, 2259-2265<br />
Carro, A.M.; Lorenzo, R.A.; Rodil, R.; Torrijos, R. Cela<br />
1923 Ethylene oxide Laboratory and field validations of a <strong>SPME</strong> 75µm Carboxen GC<br />
in air device for the determination of ethylene oxide. HBr on-fiber derivative<br />
J Chromatogr A, 1026, #1-2, 25-30 25°C<br />
Tsai, S; Tsai, S; Wang, V; Lai, J<br />
Ambient temperature, unless otherwise indicated. 99
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1924 Methyl Blank correction considerations for isotope dilution and GC-ICP-MS<br />
mercury from reverse isotope dilution calibration: Determination of<br />
fish tissue methylmercury in fish tissue<br />
J of Anall Atomic Spectrometry, 20, #8, 724-729<br />
Yang, Lu; Sturgeon, Ralph E.<br />
1925 PCBs in Selective determination of PCBs in waste oils using 65µm PDMS-DVB GC-AED<br />
waste oil liquid-liquid partition followed by headspace <strong>SPME</strong> headspace<br />
and GC with atomic emission detection<br />
J. Chromatogr. A,1056, #1-2, 263-266<br />
Cela Torrijos, R.; Ramil Criado, M.;<br />
Rodriguez Pereiro, I.<br />
1926 Degradation Confirmation of the formation of dichlorodibenzo-p- 100µm PDMS GC-EI/MS<br />
byproducts dioxin in the photodegradation of triclosan by photo-<strong>SPME</strong> headspace<br />
of triclosan Anal. Bioanal. Chem., 381,#6, 1294-1298<br />
Cela, R.; GarciaJares, C.; Llompart, M.;<br />
Lores, M.; SanchezPrado, L.<br />
1927 Acids from Degradation and corrosive activities of fungi in a diesel-mild headspace @ 30°C GC<br />
diesel fuel steel-aqueous system<br />
World J Microbiology & Biotechnology, 21, #2, 135-142<br />
Bento, F.; Beech, I.; Gaylarde, C.; Englert, G.; Muller,I.<br />
1928 PCBs in Determination of PCBs in ash using dimethylsulfoxide 65µm PDMS-DVB GC-ECD and GC-M<br />
ash microwave assisted extraction followed by <strong>SPME</strong> headspace<br />
Talanta, 63, #3, 533-540 stirring<br />
Criado, M.; Pereiro, I. ; Torrijos, R.<br />
1929 Chemical Detection of gas-phase chemical warfare agents direct air sampling GC-MS<br />
warfare agemt using field-portable GC-MS systems: instrument<br />
in air and sampling strategy considerations.<br />
Trends in Anal Chem, 23, #4, 296-306<br />
Smith, P.; Lepage, C.; Koch, D.; Wyatt, H., Hook, G.;<br />
Betsinger, G.; Erickson, R., Eckenrode, B.<br />
1930 Chemical Towards smaller and faster GC-MS systems
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1936 Roxarsone Sensitive method for the determination of roxarsone using 65µm PDMS-DVB GC-MS<br />
in water w/ <strong>SPME</strong> multi-detector gas chromatography 15min @ 70°C GC-PFPD<br />
J Chromatogr A, 1057, #1-2, 177-183 1,3-propanedithiol<br />
Aldstadt III, Joseph H.; Roerdink, Aaron R. derivatives<br />
1937 Selenium Speciation of volatile selenium species in plants using headspace GC-ICP-MS<br />
from plants GC-ICP-MS<br />
Sepu, 22, #1, 16-19<br />
Meija, J.; Montes-Bayon, M.; Caruso, J.; Leduc, D.; Terry, N.<br />
1938 Sulfur & N2 Analysis of sulfur & nitrogen odorants using <strong>SPME</strong> and GC-MS headspace GC-MS<br />
odorants in Water Sci. Technol., 50, #4, 115-120<br />
biomass Chiu, P.C.; Dentel, S.K.; Hepner, S.; Turkmen, M.<br />
1939 Odors from Characterization of odors from limed biosolids treated headspace GC-MS<br />
biosolids with nitrate and anthraquinone<br />
J. Environ. Sci. Health, 40, #1, 139-149<br />
Abu-Orf, M; Choi, H.; Kim, H.; McConnell, L.;<br />
Peot, C.; Ramirez, M.<br />
1940 Organics Sampling and analysis of volatile organic pollutants emitted 85µm polyacrylate GC-MS<br />
in stack by an industrial stack headspace<br />
emmisions Anal. Chim. Acta, 524, #1-2, 51-62<br />
Campo, L.; Domeno, C.; Martinez-Garcia, Fca.; Nerin, C.<br />
1941 Volatile Quantitative determination of volatile organic compounds in headspace GC-UV<br />
organics in indoor dust using gas chromatography-UV spectrometry<br />
dust Environ. Int., 31, #8, 1141-1148<br />
Bornehag, C; Lagesson, V; Nilsson, A; Sundell, J; Tagesson, C<br />
1942 Volatiles Analysis of volatile components in concrete by 50/30µm DVB/CAR GC-MS<br />
in concrete <strong>SPME</strong>-GC-Mass Spetrometry 65°C, headspace<br />
Zhipu Xuebao, 25, #4, 225-228<br />
Liao, K.<br />
1943 Volatiles Identification of volatile components in yunyan and yanmo headspace GC-MS<br />
in concrete concrete by <strong>SPME</strong> -GC-MS<br />
Zhipu Xuebao, 25, #1, 32-37<br />
Zhu, S. M.; Li, J.; Lin, P.<br />
1944 Chlorophenols Chlorophenols in leachates originating from different landfills headspace GC-FID<br />
from landfills and aerobic composting plants<br />
J. Hazard. Mater., 124. #1-3, 107-112<br />
Ozkaya, Bestamin<br />
1945 Organics Qualitative analysis of organics in atmospheric 100µm PDMS GC-MS<br />
from particulates by headspace <strong>SPME</strong>-GC/MS 10min headspace<br />
particulate Atmos. Environ., 38, #40, 6917-6925<br />
Khanal, O.; Shooter, D.<br />
1946 Pesticides Determination of pesticides and their degradation products Review GC-MS<br />
from soil IN soil: Critical review and comparison of methods headspace <strong>SPME</strong> LC-MS<br />
TrAC Trends Anal. Chem., 23, #10-11, 772-789<br />
Andreu, Vicente; Pico, Yolanda<br />
1947 Organics <strong>SPME</strong> to predict bioavailability and accumulation of organic 30µm PDMS GC-MS<br />
from soil micropollutants in terrestrial organisms after exposure headspace<br />
to a field-contaminated soil 10 days exposure<br />
Environ. Sci. Technol., 38, #18, 4842-4848<br />
Barendregt, A; Fleuren, R; Hermens, J.; Jager, T; Sinnige, T.;<br />
Van Der Wal, Leon; Van Gestel, Cornelis A. M.<br />
1948 PAHs in <strong>SPME</strong> coupled to GC-MS for determining PAH-micelle 85µm polyacrylate GC-MS<br />
micelles micelle partition coefficients 100µm PDMS<br />
Anal. Chem., 76, #15, 4572-4578<br />
Alfonso, Ana M.; Ayala, Juan H.; Gonzalez, V; Pino, V.<br />
Ambient temperature, unless otherwise indicated. 101
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1949 Odors from Implementation of new methods to characterise headspace GC-MS<br />
pig sheds atmospheres in piggeries<br />
Int. J. Environ. Anal. Chem., 84, #9, 647-659<br />
Begnaud, F.; Berdague, Jean-Louis; Lebost, J.;<br />
Murat, C.; Peres, C.<br />
1950 Organics in In-tube solid-phase microextraction and online 5 M X 0.53mm ID GC<br />
water coupling with high-resolution GC. 1.2µm PDMS<br />
LC-GC Europe, 17, #3, 144-151<br />
Wang, H. W.; Liu, W. M.; Guan, Y. F.<br />
1951 Odor from Characterization of volatile organic compounds on 75µm Carboxen GC<br />
swine airborne dust in a swine finishing barn 100µm PDMS<br />
facilities<br />
Water<br />
Trans. Am. Soc. Agric. Eng., 47, #4, 1231-1238<br />
Jeon, I.J.; Maghirang, R.G.; Razote, E.B.; Seitz, L.M<br />
headspace<br />
778 Volatile organics Solid Phase Microextraction of volatile organic compounds 100µm PDMS GC<br />
in environmental in environmental applications 85µm Polyacrylate<br />
samples Am Laboratory (2001)33(4), 18-20<br />
Van Longenhove, H; Dewulf, J.<br />
15 min.<br />
858 Organic pollutants <strong>SPME</strong> - a convenient tool for the determination of organic<br />
in environment pollutants in environmental matrices<br />
Crit. Rev. Anal. Chem (2001) 31(1) 1-18<br />
Zygmunt, Bogdan; Jastrzebska, Anna; Namiesnik, Jacek<br />
1 BTEX compounds, The Application of Chemically Modified Fused Silica uncoated fiber GC-FID<br />
PCBs, solvents Fibers in the Extraction of Organics from Water Matrix 1 min<br />
in water Samples and Their Rapid Transfer to Capillary Columns<br />
Water Pollution Research J. Canada 24: 179 (1989)<br />
Belardi, R., Pawliszyn, J.<br />
3 VOCs Solid Phase Microextraction for the Direct Analysis of 100µm PDMS GC-FID<br />
in water Water: Theory and Practice 2-5 min<br />
LC-GC 10: 656-661 (1992)<br />
Arthur, C., Potter, D., Buchholz., K, Motlagh, S., Pawliszyn, J.<br />
salt added<br />
4 VOCs, PCBs, Practical and Theoretical Aspects of Solid Phase 100µm PDMS GC-FID<br />
solvents in water Microextraction for the Direct Analysis of Groundwater 5-14 min<br />
Proceedings 15th Annual EPA Conference-Analysis<br />
of Pollutants in Environment, Norfolk, VA, May 1992<br />
Arthur, C., Buchholtz, K., Motlagh, S., Killam, L., Pawliszyn, J.<br />
salt added<br />
6 BTEX, gasoline Analysis of Substituted Benzene Compounds in 56µm PDMS GC-FID<br />
in water Groundwater Using <strong>SPME</strong> 2-6 min<br />
J. Env. Sci. Technol. 26: 979-983 (1992)<br />
Arthur, C., Potter, D., Lim, M., Motlagh, S.,<br />
Killam, L., Pawliszyn, J.<br />
stirring<br />
7 BTEX compounds Dynamics of Organic Compounds Extraction from 56µm PDMS GC-FID<br />
in water Water Using Liquid-Coated Fused Silica Fibers 2-6 min<br />
Anal. Chem. 64: 1187-1199 (1992)<br />
Louch, D., Motlagh, S., Pawliszyn, J.<br />
stirring<br />
10 BTEX compounds Detection of Substituted Benzenes in Water at the pg/mL 100µm PDMS GC-FID<br />
in water Level Using Solid Phase Microextraction and 30 min<br />
GC-Ion Trap Mass Spectrometer<br />
J. Chromatogr. 625: 247-255 (1992)<br />
Potter, D., Pawliszyn, J.<br />
stirring<br />
11 Organics Environmental Analysis of Organic Compounds in 100µm PDMS GC-MS<br />
in water Water Using Solid Phase Microextraction 14 min<br />
J. High Res. Chromatogr. 15: 741-744 (1992)<br />
Arthur, C., Pratt, K., Belardi, R., Motlagh, S., Pawliszyn, J.<br />
stirring<br />
Ambient temperature, unless otherwise indicated. 102
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
14 Phenols Determination of Phenols by <strong>SPME</strong> and GC Analysis 85µm polyacrylate GC-FID, -MS<br />
in water J. Environ. Sci. Technol. 27 (13): 2844-2848 (1993) 60 min<br />
Buchholz, K., Pawliszyn, J. stirring<br />
salt added, pH 2<br />
230 Phenols Determination of Phenolic Compounds in Waste Water GC-MS<br />
in water by Solid-Phase Microextraction<br />
Fresenius’ J. Anal. Chem. 357: 326-332 (1997)<br />
Moeder, M., Schrader, S., Franck, U., Popp, P.<br />
670 Phenols Sorption of phenols to dissolved organic matter<br />
in water investigated by <strong>SPME</strong><br />
Sci. Total Environ. (2000), 253(1-3), 63-74<br />
Ohlenbusch, G., Kumke, M., Frimmel, F.<br />
922 Phenolic compounds <strong>SPME</strong> coupled to liquid chromatography for the analysis 50µm CW/TPR HPLC<br />
in water of phenolic compounds in water 65µm DVB/PDMS<br />
J. Chromatogr. A (2001) 923(1-2), p45-52 30min immersed<br />
Toledo, E., Prat, M., Alpendurada, M. salt added, pH 2<br />
951 Chlorinated phenolics Application of <strong>SPME</strong> in pre-concentration of chlorinated<br />
in water phenolic compounds from cellulose bleaching effluents<br />
J. Sep. Sci (2001), 24(4), 309-312<br />
Dos Santos, L.; Vale, M.; De Araujo, M.<br />
Bertrand C.; Caramao, E.; Oliveira, E.<br />
15 VOCs, phenols, Recent Advances in Solid-Phase Microextraction 100µm PDMS GC-MS<br />
semivolatiles (<strong>SPME</strong>) of Environmental Samples 5 min (volatiles)<br />
in water Proceedings Water Quality Technology Conference 10 min (semivolatiles)<br />
Miami, FL, Nov. 1993 headspace<br />
Arthur, C., Pratt, K., Belardi, R., Motlagh, S., Pawliszyn, J. stirring, salt added<br />
671 4-Quinolones Influence of pH and other modifying factors on the CW/TPR HPLC<br />
in water distribution behaviors of 4-Quinolones to Solid phase and 10min. 260NM<br />
humic acids studied by "negligible-depletion" <strong>SPME</strong>-HPLC pH 3-5.5<br />
Environ Sci Technol. 20000, 34, 4989-4994<br />
Lutzhoft, H. Vaes, W., Freidig, A., Halling-Sorrensen, B.<br />
Hermens, J.<br />
stirred<br />
501 24 Semivolatiles Development of <strong>SPME</strong>-GC method for the determination of GC<br />
in waste water organic compounds in waste water<br />
Acta Hydrochim. Hydrobiol. 1999, 27(4), 1913-199<br />
Grote, C., Belau, E., Levsen, K., Wunsch, G.<br />
938 Organics An improved automatic analyzer for organic compounds in GC<br />
in water water based on headspace (<strong>SPME</strong>) coupled to GC<br />
Field Anal. Chem. Technol (2001) 5(1-2), 37-49<br />
Belau, E.; Grote, C.; Spiekermann, M.; Levsen, K.<br />
565 Semivolatiles Polyacrylate-Coated <strong>SPME</strong> fibers as a tool to simulate body 85µm polyacrylate GC-MS<br />
in fish, water residues and target concentrations of complex organic<br />
mixtures for estimation of baseline toxicity<br />
Environ. Sci. Technol. 2000, 34, 324-331<br />
Verbruggen, E., Vaes, W., Parkerton, T., Hermens, J.<br />
5-150 min<br />
785 Halogenated Impact of a lignite seam on contaminated groundwater in the<br />
hydrocarbons aquifer system of the Bitterfeld region<br />
in water Water Air Soil Pollut (2000) 125(1-4), 157-170<br />
Christoph, G; Dermietzel, J.<br />
19 Chlorohydrocarbons Determination of Volatile Chlorinated Hydrocarbons in 100µm PDMS GC-ECD<br />
in water Air and Water with Solid-Phase Microextraction 20 min (immersion)<br />
Analyst(Cambridge,UK) 118: 1501-5, Dec. 1993<br />
Chai, M., Arthur, C., Pratt, K., Pawliszyn, J., Belardi, R.<br />
10 min (headspace)<br />
Ambient temperature, unless otherwise indicated. 103
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
436 Chlorohydrocarbons Analysis of Volatile Halogenated Hydrocarbons in Water by 100µm PDMS GC-MS<br />
in water <strong>SPME</strong> and GC-MS 20 min<br />
Chem. Listy (1998), 92(9), 633-642<br />
Janda, V., Viden, I.<br />
stirred<br />
20 PAHs, PCBs Rapid Determination of Polyaromatic Hydrocarbons 15µm PDMS GC-MS<br />
in water and Polychlorinated Biphenyls in Water Using 10 min<br />
Solid-Phase Microextraction and GC/MS stirring<br />
J. Environ. Sci. Technol. 28(2): 298-305 (1994)<br />
Potter, D., Pawliszyn, J.<br />
900 Aromatic compounds <strong>SPME</strong> of aromatic hydrocarbons from water samples<br />
in water Chemija (2000) 11(4) 206-210<br />
Seduikiene, I.; Vickackaite, V.; Kazlauskas, R<br />
672 PAHs Quantitative analysis of PAHs in water by <strong>SPME</strong>-HPLC HPLC<br />
in water Huanjing Huaxue (2000) 19(4), 382-384<br />
Li, Y., Zhang, X., Xu, R., Cai, W., Wang, G., Song, Y.<br />
22 VOCs, BTEX, PAHs Analysis of Organic Compounds in Environmental 100µm PDMS GC-MS<br />
in wastewater, Samples Using Headspace Solid Phase Microextraction stirring, varied time<br />
sludge J. High Res. Chromatogr. 16(12): 689-692 (1993) saturated salt<br />
Zhang, A., Pawliszyn, J.<br />
673 Jet fuels Source identification of underground fuel spills by GC<br />
in ground water <strong>SPME</strong>/High Resolution GC/genetic algorithms<br />
Anal. Chem. (2000), 72(2), 423-433<br />
Lavine, B., Ritter, J., Moores, A., Wilson, M.,<br />
Faruque, A., Mayfield, H.<br />
674 Organic chemicals Quantification of synthetic organic chemicals in 85µm polyacrylate GC-FID<br />
in waste water biological treatment process effluent using <strong>SPME</strong>-GC<br />
Water Environ. Res, (2000), 72(1), 98-104<br />
Magbanua, B., Mitchell, D., Gehniger, S., Bowyer, R.,<br />
Grady, C., Leslie, J.<br />
675 Musk fragrances Optimization of <strong>SPME</strong> for the GC-MS determination of 65µm PDMS/DVB GC-MS<br />
in water synthetic musk fragrances in water samples 45 min @ 30°C<br />
J. Chromatogr. A, (2000) 903(1-2), 203-210 headspace<br />
Winkler, M., Headley, J., Peru, K. agitation<br />
502 Polycyclic musk Occurrence and distribution of organic compounds in the GC-MS<br />
in surface water aquatic system in Berlin, Germany. Part 3, Determination of<br />
synthetic musks in Berlin surface water applying<br />
<strong>SPME</strong> and GC-MS<br />
Acta Hydrochim Hydrobiol (1999), 27(3), 150-156<br />
Heberer, T., Gramer, S., Stan, H.<br />
787 Polyolefins Ultrasonication and microwave assisted extraction of GC-MS<br />
in soil degradation products from degradable polyolefin blends<br />
aged in soil<br />
J. Appl. Polym. Sci (2001) 79(6), 1101-1112<br />
Contat-Rodrigo, L; Haider, N; Karlsson, S; Ribes-Greus, A<br />
940 Pyrene Sorption of pyrene to dissolved humic substances and related<br />
on humic material model polymers. 1. Structure-property correlation<br />
Environl Scie & Tech (2001), 35(12), 2536-2542<br />
Kopinke, F.; Georgi, A.; Mackenzie, K.<br />
676 PAHs <strong>SPME</strong> and headspace <strong>SPME</strong> for the determination of high 100µm PDMS GC-FID<br />
in water/soil molecular-weight PAHs in water and soil samples 85µm polyacrylate<br />
J. Chromatogr. Sci., (2000) 38(12) 528-534<br />
Doong, R., Chang, S., Yuh-Chang<br />
20-60 min @60°C<br />
Ambient temperature, unless otherwise indicated. 104
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
677 PAHs Determination of Distribution Coefficients of priority 100µm PDMS<br />
in water/soil PAHs using <strong>SPME</strong> 85µm polyacrylate<br />
Anal. Chem. 2000, 72(15), 3647-3652<br />
Doong, R., Chang, S.,<br />
20-60min.<br />
678 PAHs <strong>SPME</strong> FOR determining the Distribution of 16 USEPA 100µm PDMS GC-MS<br />
in water/soil PAHs in water 85µm polyacrylate<br />
J.. Chromatogr.. A 2000, 879(2), 177-188<br />
Doong, R., Chang, S., Sun,, Y.<br />
20-60 min<br />
585 PAHs in Interaction between natural organic matter (NOM) and (PAH) 7µm PDMS GC-MS<br />
water/humic material comparison of fluorescence quenching and <strong>SPME</strong>.<br />
Fresenius'-J-Anal-Chem. Jun 1999; 364(4): 313-319<br />
Doll,-TE; Frimmel,-FH; Kumke,-MU; Ohlenbusch,-G<br />
20 min<br />
25 PAHs, semivolatiles Solid Phase Microextraction -- A Solventless Sample 7µm PDMS (PAHs) GC-FID, -ECD<br />
in water Preparation Method for Organic Compounds in Water polyacrylate (semivol)<br />
American Environmental Lab April 1994, p 43-45 15 min, stirring<br />
Shirey, R., Mani, V., Savrock, J. saturated salt<br />
679 Volatiles Optimization of Extraction Conditions for Low-Molecular- six different fibers GC-MS<br />
in water Weight analytes using <strong>SPME</strong> 15 min headspace<br />
J. Chrom. Sci., Vol. 38, March 2000, 109-116<br />
Shirey, R.<br />
sat. salt, pH2,7,11<br />
680 Semivolatiles Optimization of Extraction Conditions and Fiber Selection for seven different fibers GC-MS<br />
in water Semivolatile Analytes using <strong>SPME</strong> 30 min, immersed<br />
J. Chrom. Sci., Vol. 38, July 2000, 279-288 sat. salt, pH2,7,11<br />
Shirey, R.<br />
440 PAHs in Solvent-Free Method for the Determination of PAHs in 100µm PDMS HPLC-PAD<br />
water Wastewater by <strong>SPME</strong>-HPLC with Photodiode-Array Detector 45°C, 30 min<br />
J. Chromatogr. A (1998), 823(1+2), 211-218 stirring<br />
Negrao, M., Alpenduradu, M.<br />
26 BTEX compounds Analysis of BTEX in Water by Commercially Available 100µm PDMS GC-FID<br />
in water <strong>SPME</strong> and CLOT Column Gas Chromatography 35 min<br />
J. Chromatogr. 677: 201-205 (1994) stirring<br />
Sama, L., Webster, G., Friesen-Fisher, M., Ranjai, R.<br />
30 Nitrobenzenes Determination of the Semi-Volatile Compounds 100µm PDMS GC-FID<br />
in water Nitrobenzene, Isophorone, 2,4-Dinitrotoluene and 15 min<br />
2,6-Dinitrotoluene in Water Using <strong>SPME</strong> with stirring<br />
Polydimethylsiloxane-Coated Fiber saturated salt<br />
J. Chromatogr. A Vol 678(2): 313 (1994)<br />
Horng, J., Huang, S.<br />
31 VOCs, chloropesticides Rapid Analysis of Environmental Samples Using <strong>SPME</strong> 100µm PDMS GC-MS<br />
in water and Narrow Bore Capillary Columns 15 min<br />
J High Res. Chromatogr. 18(8): 495-499 (1995) stirring<br />
Shirey, R. saturated salt<br />
47 BTEX compounds Determination of BTEX Compounds in Water by 100µm PDMS GC-FID<br />
in water Solid-Phase Microextraction and Raman Spectroscopy<br />
Anal. Chem. 67(3): 600-605 (1995)<br />
Wittkamp, B., Tilotta, D.<br />
681 Volatiles A new method for the rapid determination of volatile<br />
substances: the <strong>SPME</strong>-direct method Part 1: Apparatus<br />
and working conditions<br />
Sens, Acatuators, B. (2001) B72 (2) 184-187<br />
Bene, A., Fornage, A., Luisier, J., Pichler, P., Villettaz, J.<br />
Ambient temperature, unless otherwise indicated. 105
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
830 Methyl, ethylmercury Direct hydride derivatization of methyl- and ethylmercury GC-MS<br />
chlorides chlorides in acqueous solution with KBH4<br />
in water J Environ Sci (China) (2000) 12(3) 275-278<br />
Jiang Gui-bin; He Bin<br />
48 Methylmercury Determination of Methymercury in Fish and River Water 100µm PDMS GC-MS<br />
derivatives Samples Using in situ Sodium Tetraethylborate 10 min<br />
in water and fish Derivatization Followed by <strong>SPME</strong> and GC-MS stirring<br />
J. Chromatogr. 696: 113-122 (1995) headspace<br />
Cai, Y., Bayona, J. sodium tetraborate<br />
407 Organomercury <strong>SPME</strong> and GC-MIP-AED for the Speciation Analysis of 100µm PDMS GC-MIP-AED<br />
in water and soil Organomercury Compounds 25°C<br />
J. High Resol. Chromatogr. 1999, 22 (3) 181-182 50 min (immersion)<br />
Mothes, S., Wennrich, R. 20 min (headspace)<br />
18 Bismuth III Solid Phase Microextraction of Metal Ions bare, or 100µm PDMS UV / VIS<br />
in water Microchim. Acta 112: 41-6 (1993) 60 min 460nm<br />
Otu, E., Pawliszyn, J. immersion<br />
682 Dimethylarsinic acid Speciation of dimethylarsinic acid and monomethyl- 100µm PDMS GC-MS<br />
arsonic acid arsonic acid by <strong>SPME</strong>-GC-ion trap MS<br />
J. Chromatogr.A 2000, 873(1), 129-135<br />
40min @20°C<br />
Mester, Z., Pawliszyn, J. thioglycol methylate derv.<br />
96 Organo Hg, Sn, Pb Sensitive, Simultaneous Determination of Organomercury 100µm PDMS ICP-MS<br />
in water Lead, and Tin Compounds with Headspace <strong>SPME</strong> 10 min<br />
Capillary GC Combined with Inductively Coupled Plasma MS headspace<br />
Anal. Chem. 69: 1604-1611 (1997) stirring<br />
Moens, L., DeSmaele, T., Dams, R., VanDen Broeck, P., pH 5.3<br />
Sandra, P. NaBEtr derivative<br />
873 Tin & lead <strong>SPME</strong>-GC-glow discharge-optical emission detection for GC-OES<br />
in water tin and lead speciation<br />
J Anal At Spectrom (2001) 16(4), 376-381<br />
Orellana-Velado, N.G.; Pereiro, R.; Sanz-Medel, A NaBEtr derivative<br />
796 Organo Sn Speciation of organotins in environmental samples by FPD, PFPD<br />
in water <strong>SPME</strong>-GC: comparison of four specific detectors: MIP-AES<br />
J. Anal. At. Spectrom (2001) 16(3), 263-269<br />
Aguerre, S; Lespes, G; Desauziers, V; Potin-Gautier, M<br />
ICP-MS<br />
153 Organo Sn, Pb Preconcentration and Determination of Sn- and Pb-Organic GC-AED<br />
in water Species in Environmental Samples by <strong>SPME</strong> and GC-AED<br />
Fresenius’ J. Anal. Chem. 354: 587-91 (1996)<br />
Tutschiku, S., Mothes, S., Wennrich, R.<br />
215 Organo Sn Determination of Organotin Compounds in Water Samples GC-MS<br />
in water by Solid-Phase Microextraction (<strong>SPME</strong>) and GC-MS<br />
Ann. Chim. (Rome) 87: 497-504 (1997)<br />
Guidotti, M., Vitali, M.<br />
152 Methyltin Rapid Determination of Methyltin Compounds in Aqueous 100µm PDMS GC-FPD<br />
in water Samples Using <strong>SPME</strong> and Capillary GC Followed by 29°C, 2-35 min<br />
in situ Derivatization with Sodium Tetraethylborate headspace<br />
J. High Res. Chromatogr. 18: 767 (1995) stirring<br />
Morcillo, Y., Cai, Y., Bayona, J. NaBEtr derivative<br />
161 Lead derivatives Determination of Tetraethyllead and Inorganic Lead in Water 100µm PDMS GC-MS<br />
in water by <strong>SPME</strong>-GC 10 min<br />
Anal. Chem. 68: 3008 (1996) headspace<br />
Gorecki, T., Pawliszyn, J.<br />
Ambient temperature, unless otherwise indicated. 106
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
683 Lead derivatives Determination of Tetraethyllead by <strong>SPME</strong>-thermal desorption AA<br />
in water quartz furnace atomic absorption spectrometry<br />
J. Anal. At. Spectrom. 2000, 15(16), 705-709<br />
Sandra Fraguairo, M, AlavapMoreno, F., Isela, B.<br />
10 min, headspace<br />
23 Organotin compounds Rapid Determination of Butyl, Phenyl and Cyclohexyl Tin 100µm PDMS GC-FPD<br />
in water Compounds in Aqueous Samples Using <strong>SPME</strong> and 30 min<br />
Capillary Gas Chromatography Following in situ Derivatization immersion<br />
with Sodium Tetraethylborate stirring<br />
CID-CSIC Jordi Girona, 18-26, E-8034, Barcelona, Spain<br />
Morcillo, Y., Cai, Y., Porte, C., Bayona, J.<br />
NaBEt4 derivative<br />
503 Organo-tin, -lead, Determination of organometallic compounds in surface 100µm PDMS GC-ICPMS<br />
-mercury water and sediment samples with <strong>SPME</strong>-CGC-ICPMS 10 min<br />
in water Mikrochim. Acta (1999), 130(4), 241-251<br />
De Smaele, T., Moens, L., Sandra, P., Dams, R.<br />
headspace<br />
235 Rare earth elements Separation of Cerium from Other Rare-Earth Elements with<br />
Application to Samarium-Neodymium and Lanthanum-<br />
Cerium Chronometry<br />
Nucl. Instrum. Methods Phys.Res.Sect.B 117: 201-208 (1996)<br />
Rehkaemper, M., Gaertner, M., Galer, S., Goldstein, S.<br />
580 Selenite, selenate Selective determination of selenite and selenate using GC-MS<br />
in water <strong>SPME</strong> and GC-MS 35 min, agitation<br />
J-High-Resolut-Chromatogr. Jul 1999; 22(7): 414-416 piazselenol derivative<br />
Guidotti,-M; Ravaioli,-G; Vitali,-M immersed<br />
49 Nitroaromatics Enrichment of Nitroaromatic Compounds from Water<br />
in water Samples by <strong>SPME</strong><br />
GIT Spex Chromatogr. 14: 85-87 (1995)<br />
Schaefer, B., Engewald, W.<br />
809 Nitroarenes Analysis of nitroarenes by <strong>SPME</strong>/GC-Ion trap MS<br />
Chromatography (2000) 21(2),123-124<br />
Kataoka, Hiroyuki; Lord, Heather L.; Pawliszyn, Janusz<br />
GC-MS<br />
160 Hetero aromatics Trace Analysis of Hetero Aromatic Compounds in 85µm polyacrylate GC-MS<br />
in water Water by <strong>SPME</strong> 60-200 min<br />
J. High Res. Chromatogr. 19(11): 627-632 (1996) stirring<br />
Johansen, S., Pawliszyn, J. pH 8, salt added<br />
218 BTEX Determination of Benzene Derivatives in Water by <strong>SPME</strong><br />
in water Anal. Chim. Acta 343: 101-108 (1997)<br />
Huang, S., Cheng, C., Sung, Y.<br />
50 Nitrophenols Enrichment of Nitrophenols from Water by Means of <strong>SPME</strong> 100µm PDMS GC-NPD<br />
in water Fresenius’ J. Anal. Chem. 352(5): 535-6 (1995) 5 min<br />
Schafer, B., Engewald, W. stirring<br />
pH
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
684 VOCs Determination of volatile organic compounds (VOCs) in 100µm PDMS GC-MS<br />
in water drinking water using <strong>SPME</strong><br />
Anal. Sci. Technol. (2000) 13(3), 277-281<br />
Park, G., Lee, S.<br />
832 VOCs Chemical and microbiological characterization of drinking 100µm PDMS GC-MS<br />
in water water after filtration with a domestic-size charcoal column 10min.<br />
and ultraviolet sterilization headspace<br />
Urban Water (2000) 2(1), 13-20<br />
Serpieri, N.; Moneti, G.; Pieraccini, G.; Donati, R.;<br />
Mariottini, E.; Dolara, P<br />
NaCl added<br />
82 VOCs An Evaluation of Solid Phase Microextraction for Analysis 100µm PDMS GC-MS<br />
in water of Volatile Organic Compounds in Drinking Water 20-80°C, 60 min<br />
J. High Res. Chromatogr. 18: 617-624 (1995) headspace<br />
Nilsson, T., Ogaard-Madison, J., Montanrilla, L., Larsen, B.,<br />
Facchetti, S., Pelusioj, F.<br />
stirring<br />
685 MTBE Determination of MTBE in surface water by use of <strong>SPME</strong> Carboxen/DVB/PDMS GC-MS<br />
in surface water Environ, Sci.Technol. (2000), 34(7), 1359-1364 69 min<br />
Achten, C., Puettmann, W. 25% NaCl, stirred<br />
935 MTBE Sensitive methods for measuring methyl tert-butyl-ether Carboxen/DVB/PDMS GC-MS<br />
in surface water in water 69 min<br />
Umwelt-Technol. Aktuell (2000) 12(1), 22-25<br />
Achten, C., Puettmann, W.<br />
25% NaCl, stirred<br />
686 MTBE, Ethanol, other Trace Analysis of Ethanol, MTBE, and related Oxygenate Carboxen/DVB/PDMS GC-MS<br />
oxygenates in water Compounds in Water using <strong>SPME</strong> and GC-MS 25 min immersed<br />
Anal. Chem. 2000, 72, 4654-4658 stirred<br />
Cassada, D., Zhang, Y., Snow, D., Spalding, R. Sat. salt,<br />
910 MTBE, TBE, BTEX High levels of monoaromatic compounds limit the use of 75µm Carboxen/PDMS Ion trap<br />
in water <strong>SPME</strong> of MTBE and Tert butyl alcohol 65µm DVB/PDMS GC-MS<br />
Environ Sci Technol, 2001, 35 (15) 3190-3192 1-25min.<br />
Black, L., Fine, D. saturated salt<br />
354 MTBE, EBE, BTEX Analysis of Water Samples for Trace Levels of Oxygenated 75µm Carboxen/PDMS GC-FID<br />
in water and Aromatic Compounds Using Headspace <strong>SPME</strong> and 40°C, 10 min<br />
Comprehensive Two-Dimensional Gas Chromatography headspace<br />
J. Microcolumn Separations, 10 (7), 597-604 (1998)<br />
Gaines, R., Ledford, E., Stuart, J.<br />
saturated salt<br />
952 MTBE Measurement of Henry's law constant for MTBE using <strong>SPME</strong><br />
in water Environ. Toxicol. Chem (2001), 20(8), 1625-1629 15°-40°C<br />
Bierwagen, B.G.; Keller, A.A. headspace<br />
581 Tetrachloroethene Role of humic acids in the titanium oxide-photocatalysed 100µm PDMS GC-MS<br />
in water degradation of tetrachloroethene in water.<br />
Water-Res. Jun 1999; 33(8): 1827-1836<br />
Selli,-E; Baglio,-D; Montanarella,-L; Bidoglio,-G<br />
175 Trihalomethanes Detection and Quantification of Trihalomethanes in<br />
in water Drinking Water from Alexandria, Egypt<br />
Contam. Toxicol. 56: 397-404 (1996)<br />
Hassan, A., Benfenati, E., Fanelli, R.<br />
687 Dichlorobenzene Analysis of dichlorobenzene in water by <strong>SPME</strong> 100um PDMS GC-ECD<br />
in water J. Chin. Chem. Soc (2000) 47(2) 415-420 30 min<br />
Liu, Y., Ho, W.<br />
Ambient temperature, unless otherwise indicated. 108
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
813 Chloroform Analysis of chloroform in drinking water by 85µm Polyacrylate GC-FID<br />
in water headspace solid-phase microextraction and GC 45°C<br />
Fenxi Shiyanshi (2000), 19(5), 65-67<br />
Liu, Z. L.; Wang, C. H.; Wang, X<br />
headspace<br />
858 Chloroform Chloroform formation during kraft pulp bleaching with<br />
from Kraft pulp bleach chlorine and chlorinated compounds -determination of<br />
chloroform amounts by solid phase microextraction<br />
Kami Pa Gikyoshi (2000) 54(11) 1555-1563<br />
Oi, Hiroshi; Masuzawa, Kiyoshi (Japanese)<br />
83 Benzene, halobenzene Application of Solid Phase Microextraction (<strong>SPME</strong>) in GC-FID<br />
in water Combination with GC/FID: The Determination of Benzene and<br />
Halogenated Benzenes in Pure and Octanol-Saturated Water<br />
Chem-Anal (Warsaw) 40: 897-904 (1995)<br />
Popp, P., Paschke, A., Schroeter, U., Oppermann, G.<br />
688 Benzene derivatives Matrix effect for several derivatives of benzene in water<br />
in surface water by <strong>SPME</strong><br />
Chromatographia 2000, 51(suppl.) S328-S330<br />
Javorszky, E., Molnar, E., Torkos, K. Borossay, J.<br />
86 Organics Comparison of On-line SPE-HPLC and <strong>SPME</strong>-GC for HPLC<br />
in water the Analysis of Microcontaminants in Water<br />
Chromatographia 41: 462-470 (1995)<br />
Rivasseau, C., Caude, M.<br />
217 Haloethers Determination of Haloethers in Water by <strong>SPME</strong> 100µm PDMS GC-FID<br />
in water J. Chromatogr. A 769: 239-246 (1997) 40 min, immersion<br />
Huang, S., Ting, C., Lin, C. saturated salt<br />
586 Trichlorofluoroether Anaerobic biotransformation of trichlorofluoroethene in 100µm PDMS GC-MS<br />
in water groundwater microcosms. headspace<br />
Environ-Sci-Technol. 15 Jun 1999; 33(12): 2040-2045 salt, agitation<br />
Vancheeswaran,-S; Hyman,-MR; Semprini,-L<br />
90 Aromatics Determination of Volatile Organic Compounds in Water parafilm, GC-FID<br />
in water by Solid Phase Micro-Extraction and Infrared Spectroscopy 30 min<br />
Environ. Sci. Technol. 30: 1212-1219 (1996)<br />
Heglund, D., Tilotta, D.<br />
926 Poly(dimethylsiloxane) films as sorbent for <strong>SPME</strong> couple PDMS IR<br />
infrared spectroscopy<br />
J. Chromatogr. A (1998), 829(1-2) 377-384<br />
Merschman, S., Lubbad, S., Tilotta, D.<br />
942 Volatile organics Development of headspace <strong>SPME</strong>/attenuated total reflection IR<br />
in water infrared chemical sensing method for the determination o<br />
of volatile organic compounds in aqueous solutions headspace<br />
Analytica Chimica Acta (2001), 436(1), 31-40<br />
Yang, Jyisy; Tsai, Shu-Sha<br />
505 Hydroxyaromatics Determination of hydroxyaromatic compounds in water by PDMS/DVB or CW-TPR HPLC<br />
in water <strong>SPME</strong> coupled to HPLC<br />
J. Chromatogr. A. (1999), 835(1+2), 127-135<br />
Wu, Y., Huang, S.<br />
280nm<br />
229 71 organics Calibration of a Commercial Solid-Phase Microextraction 100µm PDMS GC-FID<br />
in gaseous mixture Device for Measuring Headspace Concentrations of 25°C, 30 min<br />
Organic Volatiles<br />
Anal. Chem. 69: 364-372 (1997)<br />
Bartlet, R.<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 109
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
155 VOCs Sampling Volatile Organic Compounds Using a Modified 100µm PDMS GC-MS<br />
in water Solid Phase Microextraction Device 10 min<br />
J High Res. Chromatogr. 19(3): 155-60 (1996) headspace<br />
Zhang, Z., Pawliszyn, J. stirring, saturated salt<br />
205 Volatiles Solid Phase Microextraction of Volatile Compounds Using 75µm Carboxen/PDMS GC-FID, ECD<br />
in water Carboxen-Polydimethylsiloxane Fibers 30 min<br />
Chromatographia 46: 419-424 (1997) headspace<br />
Popp, P., Paschke, A. stirring<br />
240 Volatiles Application of Solid-Phase Microextraction to the Analysis 100µm PDMS, GC-FID<br />
in water of Volatile Organic Compounds in Water 85µm polyacrylate<br />
J. Chromatogr. A 742: 181-189 (1996) 12 min<br />
Santos, F., Galceran, M., Fraisse, D. stirring<br />
689 BTEX Static headspace, SOME and headspace <strong>SPME</strong> for BTEX 100µm PDMS GC-FID<br />
in water determination in aqueous samples by GC<br />
Anal. Chim. Acta. 2000, 415(1-2), 9-20<br />
Menendex, J., Sanchez, M., Uria, J., Martinez, E., Medel, A.<br />
506 BTEX in In-tube <strong>SPME</strong>-GC of volatile compounds in aqueous solution 1 meter capillary GC-FID<br />
water Analyst (Cambridge, UK), 1999, 124(5), 651-655<br />
Tan, B, Marriott, P., Morrison, P., Lee, H.<br />
117 Solvents, C2-C4 acids Carbon Isotope Analysis of Semivolatile Organic Compounds polyacrylate, Carbowax, GC-MS<br />
in water in Aqueous Media Using <strong>SPME</strong> and Isotope Ratio cyclodextrin<br />
Monitoring GC/MS 10-30 min<br />
Anal. Chem. 69: 944-950 (1997)<br />
Dias, R., Freeman, K.<br />
stirring<br />
225 Organochlorine Application of Solid-Phase Microextraction to the Headspace 100µm PDMS GC-ELCD<br />
semivolatiles in water GC Analysis of Semivolatile Organochlorine 87°C, 45 min<br />
Contaminants in Aqueous Matrices headspace &<br />
J. Chromatogr. A 757: 173-182 (1997) immersion<br />
Page, B., Lacroix, G. salt added<br />
507 Polar organics Analysis of organochlorine compounds in water by <strong>SPME</strong>/GC 100µm PDMS GC-ECD<br />
in water Fenxi Huaxue, 1999, 27(7), 768-772 70°C, headspace<br />
Zhang, D, Zhou, Z., Tang, Y., Wu, C., Zhen, W. Xu, Y. Chinese<br />
151 BTEX Protocol for the Analysis of High Concentrations of Benzene, 100µm PDMS GC-FID<br />
in water Toluene, Ethylbenzene, and Xylene Isomers in Water Using 5 min<br />
Automated <strong>SPME</strong>-GC-FID<br />
Environ. Sci. Technol. 30: 1521 (1996)<br />
Thomas, S., Ranjan, S., Webster, G., Sarna, L.<br />
immersion<br />
154 Organics Solid Phase Microextraction Coupled to GC: A New Method various fibers GC-MS, AED<br />
in water for the Analysis of Organics in Water<br />
J. Chromatogr. A 733: 143 (1996)<br />
Eisert, R., Levson, K.<br />
and conditions<br />
909 Endocrine Column siylation method for determining endocrine<br />
disruptors disruptors from environmental water samples by <strong>SPME</strong><br />
in water Talanta 2001, 54(6) 1039-1047<br />
Helaleh, M., Fujii, S., Korenaga, T.<br />
767 Ibuprofen, NBBS Elimination of Ibuprofen and NBBS in municipal purification<br />
in water plant analyzed by <strong>SPME</strong><br />
Schiftenr (1999), 95, 1-148<br />
Huppert, N. (in german)<br />
Ambient temperature, unless otherwise indicated. 110
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
162 Surfactants <strong>SPME</strong> Coupled with HPLC for Determination of Alkylphenol Carbowax/TPR 100 HPLC<br />
in water Ethoxylate Surfactants in Water 50 min UV, 220nm<br />
Anal. Chem. 68: 1521-9 (1996) immersion<br />
Boyd-Boland, A., Pawliszyn, J. stirring<br />
897 Surfactant Identification of alkyl dimethylbenzylammonium surfactants LC/MS<br />
in water in water samples by <strong>SPME</strong> followed by ion trap<br />
LC/MS and LC/MS/MS<br />
Environ. Sci. Technol 92001) 35(12) 2583-2588<br />
Ferrer, Imma; Furlong, Edward<br />
690 Surfactant Identification and characterization of Fenton oxidation<br />
in water products of surfactants by EMS and <strong>SPME</strong>-GC-MS<br />
Fatty alcohol polyethoxy sulfates.<br />
Rapid Commun, Mass Spectrom 2000, 14(10), 834-839<br />
Cuzzola, A., Raffaelli, A., Saba, A., Salvadori, P.<br />
928 Surfactant Assessment of polycystalline graphites as sorbents for<br />
in water <strong>SPME</strong> of nonionic surfactants<br />
J. Chromatogr. A (2000) 888(1-2) 35-41<br />
Aranda, R., Kruus, P., Burk, R.<br />
508 Diethylphthalate Trace determination of diethylphthalate in aqueous media 60µm DVB/PDMS HPLC<br />
in water by <strong>SPME</strong>-HPLC 15 min immersed UV, 226nm<br />
J. Chromatogr. A 841(1999) 177-185<br />
Kelly, M., Larroque, M.<br />
NaCl<br />
804 Phthalic diesters Determination of phthalic diesters in water by solid-phase 100µm PDMS<br />
in water microextraction-capillary gas chromatography<br />
Sepu (2000) 18(6), 568-570 headspace<br />
Liu, Z. L.; Xiao, C. H.; Wu, C. Y.; Han, H. M. (in Chinese)<br />
588 Phthalates esters In-tube <strong>SPME</strong>-LC analysis of phthalate esters in 40m x 0.25mm capillary HPLC<br />
in water water samples<br />
Chromatography. Jun 1999; 20(2): 124-125<br />
Saito,-Y; Nakao,-Y; Jinno,-K<br />
782 Butylphthalates Fiber-in-tube solid-phase microextraction: a fibrous rigid-rod HPLC<br />
in water heterocyclic polymer as the extraction medium<br />
Fresenius' J AnalChem (2000) 368(7), 641-643<br />
Saito, Y.; Nakao, Y.; Imaizumi, M.; Takeichi, T.; Kiso, Y.; Jinno, K<br />
20min.<br />
691 Phthalates esters Determination of phthalate esters in water samples by 85µm polyacrylate GC-MS<br />
in water <strong>SPME</strong> and GC with mass spectrometric detection 90min @ 45°C<br />
J. Chromatogr. A (2000), 872 (1&2), 191-201<br />
Penalver, A., Pocurull, E, Borrull, F., Marce, R.<br />
NaCl added<br />
801 Phthalates esters Methods for routine analysis of phthalates in food GC-FID/MS<br />
in water and the environment<br />
Deutsche Lebensmittel-Rundschau (2000) 96(11), 411-417<br />
Baerwinkel, D.; Haufe, J.; Kroh, L. W<br />
178 4-Nonylphenol Determination of 4-Nonylphenol. Part 2: Orthogonal Array 100µm PDMS GC-FID<br />
in sea water Design as a Chemometric Method for the <strong>SPME</strong> of 30 min<br />
4-Nonylphenol in Water immersion<br />
J. Microcolumn Sep. 8 (2): 131-136 (1996)<br />
Chee, K., Wong, M., Lee, H.<br />
stirring<br />
219 BTEX Direct Solid Phase Microextraction for the Determination 100µm PDMS GC-FID<br />
in water of BTEX in Water and Waste Water 10 min<br />
J. High Res. Chromatogr. 19: 472-474 (1996)<br />
Valor, I., Cortada, C., Molto, J.<br />
stirring<br />
Ambient temperature, unless otherwise indicated. 111
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
208 BTEX compounds A New Porous-Layer Activated-Charcoal-Coated Fused 100µm charcoal coated GC-FID<br />
in water Silica Fibre: Application for Determination of BTEX fiber / PDMS<br />
Compounds in Water Samples Using Headspace <strong>SPME</strong> and 25°C, 15 min<br />
Capillary Gas Chromatography stirring<br />
Chromatographia 45: 183-189 (1997)<br />
Djozan, D., Assadi, Y.<br />
salt added<br />
169 Chlorinated Analysis of Chlorinated 1,3-Butadienes by <strong>SPME</strong> and GC-MS 100µm PDMS GC-MS<br />
1,3-butadienes J. Chromatogr. A 737: 85-91 (1996) 30 min<br />
in water Fattore, E., Benfenati, E., Fanelli, R. immersion<br />
692 Styrene <strong>SPME</strong> method for the quantitative analysis of styrene in water 85µm polyacrylate GC-FID<br />
in water J. Chromatogr.Sci. (2000), 38(7), 315-318 10mn @ 55°C<br />
Silva, F., DeCarvalho, C., Cardeal, Z. headspace<br />
776 Dioxin, Furans Determination of dioxins and furans in water sample by GC-MS<br />
in water HRGC/HRMS and pretreatment using <strong>SPME</strong><br />
Organohalogen Compd (2000) 45, 68-71<br />
Eom, S; Ahn, So; Kim, M; Shin, J<br />
170 Semivolatiles Trends in Extraction of Semivolatile Compounds from Water<br />
in water for Environmental Analysis<br />
Anal. Commun. 33 (9): 15H-17H<br />
Poole, S., Poole, C.<br />
509 Semivolatiles Studies of the composition of distillates from leachate by GC-ms<br />
in water GC-MS coupled to <strong>SPME</strong> pH 4 or 10<br />
Rapid Commun. Mass Spectrom (1999), 13(10), 966-970<br />
Saba, A., Pucci, S., Raffaekki, A., Salvadori, P.<br />
headspace/immersed<br />
807 Petroleum Application of <strong>SPME</strong> chromatography with mass<br />
hydrocarbons spectrometry to the analysis of gasoline content in water<br />
in water Huaxue Fence (2000) 36(10) 465-466<br />
Chen, X. D.; Zhou, H (in chinese)<br />
216 Petroleum Water Analysis by Solid-Phase Microextraction Based on 100µm PDMS GC-FID<br />
hydrocarbons Physical Chemical Properties of the Coating 30 min<br />
in water Anal. Chem. 69(11): 1992-1998 (1997) headspace<br />
Saraullo, A., Martos, P., Pawliszyn, J. stirring<br />
272 BTEX Application Methods of <strong>SPME</strong> for the Classification of BTEX<br />
GIT Labor-Fachz. 41 (12): 1191-1195 (1997)<br />
Van der Heide, M., Petry, P.<br />
273 <strong>SPME</strong> as a Method for Preparing Environmental Samples<br />
Pol. J. Environ. Stud. 6 (5): 5-12 (1997)<br />
Ligor, M., Buszewski, B.<br />
274 <strong>SPME</strong> in Pretreatment of Environmental Samples<br />
Huaxue Jinzhan 10 (1): 74-84(1998)<br />
Jia, J., He, Y., Huang, J.<br />
275 Aqueous samples Direct <strong>SPME</strong> of Complex Aqueous Samples with Hollow<br />
Fiber Membrane Protection<br />
Anal. Commun. 33 (7): 219-221(1996)<br />
Zhang, Z., Poerschmann, J., Pawliszyn, J.<br />
693 Alkanes, PCBs,PAHs Sorption of very hydrophobic organic compounds onto 7um, 30um PDMS GC-MS<br />
in humic material PDMS and dissolve humic organic matter. 1. Adsorption or 20 min SIMS<br />
partitioning of VHOC on PDMS coated <strong>SPME</strong> fibers- stirring<br />
never-ending story<br />
Environ Sci Technol 2000, 34, 3824-3830<br />
Poerschmann, J., Gorecki, T., Kopinke, G.<br />
Ambient temperature, unless otherwise indicated. 112
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
844 Hydrophobic organics Sorption of hydrophobic organic compounds on nonpolar PDMS, polyacrylate GC-MS<br />
in humic material <strong>SPME</strong> fibres and dissolved humic organic matter long dash<br />
Part III: Application of the solubility parameter concept to<br />
interpret sorption on <strong>SPME</strong> fibre coatings<br />
J Microcolumn Separations (2000) 12(12), 603-612<br />
Poerschmann, J.<br />
923 Use of <strong>SPME</strong> for measuring oil-water partition coefficients and<br />
correlation with HPLC methods for lipophilicity<br />
J. Chromatogr A (1999) 864(2) 183-189<br />
Pollein, P., Roberts, D.<br />
HPLC<br />
276 Phenols, PAHs <strong>SPME</strong> for Determining Distribution of Chemicals in 100µm PDMS GC-MS<br />
in wastewater Aqueous Matrixes 10 sec<br />
Anal. Chem. 69 (4): 597-600 (1997)<br />
Zhang, A., Kopinke, G., Pawliszyn, J.<br />
stirring<br />
277 Chlorinated organics Water Solubility and Octanol/Water-Partitioning of<br />
in water Hydrophobic Chlorinate Organic Substances Determined<br />
by Using <strong>SPME</strong>/GC<br />
Fresenius’ J. Anal. Chem. 360 (1): 52-57 (1998)<br />
Paschke, A., Popp, P.<br />
278 Phenols Determination of Phenols by Solid-Phase Microextraction 85µm polyacrylate GC-FID<br />
in water J. Chromatogr. A 767 (1+2): 171-175 (1997) 25°C, 60 min<br />
Bartak, P., Cap, L. headspace<br />
pH 1, salt added<br />
439 Chlorophenols Determination of Chlorophenols Using <strong>SPME</strong> and GC/MS<br />
in water Ann. Chim. (Rome) (1998), 88(9-10), 629-635<br />
Guidotti, M., Ravaioli, G. GC-MS<br />
777 Organics Solid phase extraction techniques for drinking water GC-MS<br />
in drinking water abstraction monitoring and investigation of pollution<br />
incidents<br />
J Water Supply Res and Tech (2000) 49(2), 103-109<br />
Gardner, M.; Comber, S. ; Rogers, H.<br />
944 Organics Determination of water contaminants at trace levels using<br />
in water large volume sampling techniques: Comparison of LVPTVI,<br />
LVOCI, and <strong>SPME</strong>.<br />
American Laboratory (2001) 33(11), 45-47<br />
Trisciani, A.; Munari, F.; Anelli, L.; Castanho, J.<br />
279 VOCs Pollution of Ground and Drinking Water with Volatile GC-MS<br />
in water Organic Compounds, <strong>SPME</strong> and GC/MS Analysis<br />
Toxicol. Environ. Chem. 55 (1-4): 73-81 (1996)<br />
Hassan, A., Benfenati, E., Facchini, G., Fanelli, R.<br />
280 Trihalomethanes Determination of Trihalomethanes in Drinking Water by GC-ECD<br />
in water <strong>SPME</strong>-GC with Electron-Capture Detection<br />
Toxicol. Environ. Chem. 60(1-14): 39-45 (1997)<br />
Chen, M., Mao, I., Hsu, C.<br />
281 Chloroacetic acid esters Determination of Chlorinated Acetic Acids in Drinking 30µm PDMS GC-ECD<br />
in water Water by in situ Derivatization and Solid Phase 1 min<br />
Microextraction headspace<br />
Int. J. Environ. Anal. Chem. 66 (3): 215-224(1997) stirring<br />
Aikawa, B., Burk, R. methanolic HCl added<br />
Ambient temperature, unless otherwise indicated. 113
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
510 Sulfur compounds in Studies on the application of <strong>SPME</strong> for analysis of volatile FPD-GC<br />
water, N2 & propane organic sulfur compounds in gaseous and liquid samples<br />
Chem. Anal. (Warsaw), 1999, 44(3A), 485-493<br />
Wardencki, W., Namiesnik, J.<br />
339 Geosmin, 2-MIB Rapid Analysis of Geosmin and 2-Methylisoborneol in Water 100µm PDMS GC-MS<br />
in water Using <strong>SPME</strong> Procedures 40°C, 30 min<br />
Water Research Vol. 32, No. 7, 2140-2146 (1998 headspace, stirring<br />
Lloyd, S., Lea, J., Zimba, P., Grimm, C. salt added<br />
362 2-MIB, geosmin Analysis of 2-Methylisoboreneol and Geosmin in Catfish 100µm PDMS GC-MS<br />
in catfish by Microwave Distillation-<strong>SPME</strong> 40°C, 30 min<br />
J. Agri. Food Chem., 47, No. 1, pg. 164-169, 1999 headspace, stirring<br />
Lloyd, S., Grimm, C. salt added<br />
446 MIB & geosmin Determination of Geosmin and 2-Methylisoboreneol in Water 80µm Carboxen/DVB/PDMS GC-MS<br />
in water Using <strong>SPME</strong> and GC-Chemical Ionization/Electron Impact 60°C, 30 min<br />
Ionization Ion Trap MS headspace<br />
Analyst (Cambridge, U.K.) (1998), 123 (10), 2155-2160 stirring<br />
McCallum, R., Pendleton, P., Scumann, R., Trinh, M. salt added<br />
511 34 Odor compounds Headspace <strong>SPME</strong> for the determination of trace levels of 65µm DVB/PDMS GC-Ion trap<br />
in water taste and odor compounds in water samples 40 min @ 20°C MS<br />
Analyst (Cambridge, UK) 1999, 123(4), 459-466 NaCl, stirring<br />
Bao, M., Mascini, M., Griffini, O., Burrini, D., Santianni, D.,<br />
Barbieri, K.<br />
immersion/headspace<br />
282 Chemical warfare On-Site Sample Work-Up Procedures to Isolate Chemical<br />
compounds Warfare-Related Compounds, Using SPE & <strong>SPME</strong> Technology<br />
Analytical Chemistry Associated with the Destruction of<br />
Chemical Weapons NATO ASI Ser., Ser. 1 13: 65-76 (1997)<br />
Alcaraz, A., Hulsey, S., Whipple, R., Andresen, B.<br />
116 Nerve agents Determination of Chemical Warfare Agents in Natural 65µm PDMS/DVB GC-FID<br />
in water Water Samples by <strong>SPME</strong> 30 min GC-MS<br />
Anal. Chem. 69: 1866-1872 (1997) headspace<br />
Lakso, H., Ng, W. saturated salt<br />
762 Lewisite oxide Determination of Lewisite oxide in soil using <strong>SPME</strong> 100µm PDMS GC-FPD/or<br />
in soil followed by GC w/FPD or Mass spectormetric detection 20min. GC-MS<br />
J. Chromatogr-A, 909 (2001) 13-28 agitated<br />
Tomkin, B., Sega, G., Ho, C. 1,3-propanedithiol derv.<br />
560 Chemical warfare In-situ derivatisation of degradation products of chemical 65µm Carboxen/PDMS GC-MS<br />
agents in water warfare agents in water by <strong>SPME</strong> and GC-MS analysis 20°C,<br />
J. Chromatogr-A, Feb 1999, 832(1+2), 173-182 N-methyl-N-(tert-butyl<br />
Sng, M., Ng., W. dimethylsilyl) trifluoroacetamide<br />
derivative<br />
283 Volatiles Rapid Determination of Volatile Organic Compounds in<br />
in wastewater Environmentally Hazardous Wastewaters, Using <strong>SPME</strong><br />
Anal. Chem. 358 (7-8): 833-837 (1997)<br />
James, K., Stack, M.<br />
284 TNT, DNT salt Trace salt Signatures from World War II 65µm PDMS/DVB directly<br />
in seawater/ Unexploded Undersea Ordinance 15 min into MS<br />
sediment Environ. Sci. Technol. 32 (9): 1354-1358 (1998) pH 8<br />
Darrach, M., Chutjian, A., Plett, G. agitation<br />
Ambient temperature, unless otherwise indicated. 114
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
285 Aromatic amines Determination of Aromatic Amines by <strong>SPME</strong>-GC-MS 65µm Carbowax/DVB GC-MS<br />
in water in Water Samples 30 min<br />
J. Chromatogr. A 791(1+2): 221-230 (1997) stirring<br />
Muller, L., Fattore, E., Benfenati, E. pH 7.6, salt added<br />
578 Aromatic amines <strong>SPME</strong> coupled with HPLC for the determination of 65µm PDMS/DVB, CW-TPR HPLC-UV<br />
in water aromatic amines.<br />
Anal-Chem. 15 Jan 1999; 71(2): 310-318<br />
Wu,-Y-C; Huang,-S-D<br />
280nm<br />
286 Volatiles Inter-Laboratory Studies for the Validation of <strong>SPME</strong> for 100µm PDMS GC-ECD<br />
in water the Quantitative Analysis of Volatile Organic Compounds 30 min<br />
Compounds in Aqueous Samples headspace &<br />
Anal. Chim. Acta 356 (2-3): 113-123 (1997) immersion<br />
Nilsson, T., Ferrari, R., Facchetti, S. stirring<br />
597 Volatiles (BTEX) Solid-phase micro-extraction of volatiles from water 100µm PDMS GC-FID<br />
in water using open cap vials 5 min. @ 25C<br />
Chromatographia. May 1999; 49(9-10): 513-519<br />
Matisova,-E; Sedlakova,-J; Simon,-P; Welsch,-T<br />
stirred<br />
287 VOCs, pesticides Capabilities for the Direct Determination of Triphenyl- Carboxen/PDMS, GC-MS<br />
in water and air and Triethylarsine in Water by <strong>SPME</strong> Followed by GC-A 100µm PDMS<br />
Amer. Environ. Lab, 9 (10): cover, 5-6 (1997)<br />
Mothes, S., Wennrich. R.<br />
various conditions<br />
374 Organoarsenicals Determination of Organoarsenicals in the Environment by 100µm PDMS GC-MS<br />
in water and soil <strong>SPME</strong>-GC-MS 10 min<br />
J. Chromatogr. A 807 (1998) 253-263 immersion<br />
Szostek, B., Aldstadt, J. methyl thioglycolate<br />
(derivative)<br />
879 Organoarsenicals <strong>SPME</strong> method for GC w/MS and pulsed Flame photometric 100µm PDMS GC-MS<br />
in water detection: studies of organoarsenical speciation 10 min GC- PFPD<br />
J. Chromatogr. A 918(2001) 169-175 immersion<br />
Killelea, D., Aldstadt, J. methyl thioglycolate<br />
(derivative)<br />
790 Organoarsenicals Speciation of organoarsenic compounds by poly(pyrrole)- Polypyrrol capillary LC-EI-MS<br />
in water coated capillary in-tube <strong>SPME</strong> coupled with HPLC-EI-MS<br />
Analytica Chimica Acta (2000) 424(2), 211-222<br />
Wu, J. C.; Mester, Z.; Pawliszyn, J.<br />
815 Metal hydrides Sampling and determination of metal hydrides by <strong>SPME</strong> Carboxen/PDMS, ICP-MS<br />
in water thermal desorption inductively coupled plasma MS<br />
J. Analytical Atomic Spectrometry (2000) 15(11) 1461-1465<br />
Mester, Z.; Sturgeon, R. E.; Lam, J. W<br />
Sodium Borohydride/HCl<br />
288 Iodinated volatiles <strong>SPME</strong> with Temperature-Programmed Desorption for the 85µm polyacrylate GC-ECD<br />
in water Analysis of Iodinated Disinfection Byproducts 15 min<br />
Anal. Chem. 70 (3): 638-644 (1998) immersion<br />
Frazey, P., Barkley, R., Siever, R. stirring<br />
289 Chloroethers Determination of Chloroethers in Aqueous Samples, GC-FID or MS<br />
in water Using <strong>SPME</strong><br />
Acta Hydrochim. Hydrobio. 25 (6): 329-334 (1997)<br />
Wennrich, L., Engewald, W., Popp, P.<br />
513 Chloroethers GC trace analysis of haloethers in water: Comparison of GC-FID or MS<br />
in water different extraction techniques<br />
Int. J. Environ.Anal. Chem (1999), 73(1), 31-41<br />
Wennrich, L., Engewald, W., Popp, P.<br />
Ambient temperature, unless otherwise indicated. 115
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
514 Aliphatic aldehydes Influence of extraction parameters and medium on efficiency 100µm PDMS GC-MSD<br />
in water/oil of <strong>SPME</strong> sampling in analysis of aliphatic aldehydes 30 min @ 40°C<br />
J. Chromatogr., A 1999, 845(1+2), 337-347<br />
Keszler, A., heberger, K.<br />
immersed/headspace<br />
515 Glycerol ethers Improved extraction of glycerol ethers from water by <strong>SPME</strong> 75µm Carboxen/PDMS GC-FID<br />
in water by Carboxen-PDMS coated fiber 25°C, sat. NaCl<br />
Chromatogrophia, 1999, 50 (3/4), 155-159<br />
Bensoam, J., Cicolella, A., Durjardin, R.<br />
immersed<br />
516 Amines/alcohols Evaluation of <strong>SPME</strong> for the anlaysis of hydophilic 75µm Carboxen/PDMS<br />
in water compounds<br />
J. Exposure Anal.Environ. Epidemiol. 1999, 9(3) 181-191<br />
Shoemaker, J. Munch, J., Behmer, T.<br />
517 Polar volatiles <strong>SPME</strong> of volatile polar compounds in water 85µm polyacrylate GC-MS<br />
in water J. High Resolut. Chromatogr. (1999), 22(2), 109-115 50°C<br />
Matisova, E, Sedlakova, J., Slezackova, M., Welsch, T. headspace<br />
290 VOCs, pesticides On-Site Sampling for Volatiles and Pesticides, Using <strong>SPME</strong> 100µm PDMS, GC-MS<br />
in water and air Amer. Environ. Lab. 10 (2): 21-22 (1998) 75µm Carboxen/PDMS<br />
Shirey, R., Mani, V, Mindrup, R. 2-3 min, headspace<br />
stirring, salt added<br />
291 Petroleum Solvent-Free and Rapid Determination of Petroleum<br />
hydrocarbons Hydrocarbons in Water by <strong>SPME</strong><br />
in water UFZ-Ber. Optimierung Umweltvertiraeglicher<br />
Analysenverfahren fuer Mineraloelkohlenwasserstoff<br />
IM Boden 12: 14-17 (1997)<br />
Christall, B.<br />
367 C3-C16 hydrocarbons Partition Infrared Method for Total Gasoline Range Organics 130µm Teflon film IR 4000-2690<br />
in water in Water Based on <strong>SPME</strong> 30 min cm-1<br />
Environ. Sci. Technol, 1999, 33, 814-819<br />
Stahl, D., Tilotta, D.<br />
immersion<br />
518 MMT in Determination of methylcyclopentadienylmanganese 100µm PDMS GC-AED<br />
water tricarbonyl (MMT) in aqueous samples by <strong>SPME</strong>-GC-AED 15 min @ 20°C<br />
Analyst (Cambridge, UK), (1999), 124(1), 71-73<br />
Yang, F., Chau, Y.<br />
headspace<br />
849 MMT in Determination of methylcyclopentadienylmanganesel GC-AED<br />
water tricarbonyl by <strong>SPME</strong>-direct thermal desorption-quartz<br />
furnace atomic absorption spectrometry<br />
Spectrochim. Acta, Part B (2001) 56B(2) 215-222<br />
Fragueiro, M. S.; Alava-Moreno, F.; Lavilla, I.; Bendicho, C<br />
519 VOCs, BTEX, Efficiency of direct <strong>SPME</strong> from water: Comparison of variety of fibers<br />
pesticides, PCBs different fiber types including a new C8-coating<br />
from water Chromatographia, 1999, 49(11/12), 686-690<br />
Popp, P., Paschke, A.<br />
904 pesticides Analysis of fire ant pesticides in water by <strong>SPME</strong> and GC-MS GC-MS &<br />
in water and LC-MS<br />
Analytica Chimica Acta 2001, 436(1) 11-20<br />
Reyzer, M., Brodbelt, J.<br />
LC-MS<br />
770 Chlorine, nitrogen Multiresidual method for determination of chlorine, GC/ECD/NPD<br />
phosphorus nitrogen, and phosphorus containing pesticides in surface<br />
pesticides and drinking water by <strong>SPME</strong> and GC/ECD/NPD<br />
in water Boll. Chim. Ig., Parte Sci. (2000) 51(S3), 99-103<br />
de Luca, Giuseppe; Mura, Michele (in Italian)<br />
Ambient temperature, unless otherwise indicated. 116
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
512 Iodinated THMs <strong>SPME</strong> for the determination of iodinated trihalomethanes in 65µm CW/DVB/PDMS GC-ECD<br />
in drinking water drinking water 10 min @ 20°C<br />
J. Chromatogr., A (1999), 841(2), 197-206<br />
Cancho, B., Ventura, G., Galceran, M.<br />
NaCl used<br />
292 Iodinated organics Solid Phase Microextraction and Analysis of Iodinated 85µm polyacrylate GC-ECD<br />
in water Organic Compounds<br />
Avail. UMI, Order No. DA9812871 from:<br />
Diss. Abstr. Int., B 58 (10): 5364 (1998)<br />
Frazey, P.<br />
288 Iodinated volatiles <strong>SPME</strong> with Temperature-Programmed Desorption for the 85µm polyacrylate GC-ECD<br />
in water Analysis of Iodinated Disinfection Byproducts 15 min<br />
Anal. Chem. 70 (3): 638-644 (1998) immersion<br />
Frazey, P., Barkley, R., Siever, R. stirring<br />
694 Cyanogen chloride Simultaneous determination of cyanogen chloride and Carboxen/DVB/PDMS GC-ECD<br />
in water cyanogen bromide in treated water at sub-ug/L levels by a 15 min, headspace<br />
new <strong>SPME</strong>-GC-ECD method 2-3pH, 25% salt added<br />
J. Chromatogr. A 897(2000) 307-315<br />
Cancho, B., Ventura, F., Galceran, M.<br />
695 Acetic acid Determination of acetic acid in aqueous samples, by 85µm Polyacrylate GC-FID<br />
in water water-phase derivatization, <strong>SPME</strong>, and GC headspace<br />
J. Chromatogr. A., (2000), 874(2), 225-234 benzenal bromide derv.<br />
Wittmann, G., Van Langenhove, H., Dewulf, J.<br />
411 Chloroacetic acids Determinationof Chlorinated Acetic Acids in Drinking<br />
in water Water by in-situ Derivatization-<strong>SPME</strong><br />
Interri J. Environ. Anal. Chem. 66: 215-224 (1997)<br />
Aikawa, B., Burk, R.<br />
520 Haloacetic acids <strong>SPME</strong> coupled with GC-ion trap mass spectrometry for the GC-Iontrap<br />
in water analysis of haloacetic acids in water MS<br />
J. Chromatogr., A 1999, 859(2), 159-172<br />
Sarridon, M., Santos, F., Galceran, M.<br />
696 Haloacetic acids In situ derivatization/<strong>SPME</strong> for the determination of Carboxen/PDMS GC-ITMS<br />
in water haloacetic acids in water<br />
Anal. Chem. 2000 Oct. 15, 72(20), 4865-4873 headspace<br />
Sarrion, M. Santos, F., Galceran, M. dimethyl sulfate derv.<br />
353 Chlorobenzenes Using <strong>SPME</strong> to Determine Partition Coefficients to Humic Acids 7µm PDMS GC-FID<br />
in water and Bioavailable Concentrations of Hydrophobic Chemicals 20 min<br />
Environ.Sci Technol, 1998, 32, 3430-3435 immersion<br />
Ramos, E., Meijer, S., Vaes, W., Verhaar, H., Hermens, J. pH 7<br />
576 Chlorobenzenes <strong>SPME</strong>-capillary GC determination of chlorobenzene 100µm PDMS GC-ECD<br />
in water compounds in water 5 min, agitated<br />
Lihua-Jianyan,-Huaxue-Fence. Mar 1999; 35(3): 103-105 0.5gm NaOH<br />
Yang,-HB immersed<br />
697 Chlorinated Trace analysis of ten chlorinated benzenes in water 100µm PDMS GC-MS<br />
benzenes in by headspace <strong>SPME</strong> headspace<br />
water J. Chromatogr. A (2000) 874(1), 149-154<br />
He, Y., Wang, Y., Lee, H.<br />
salt, agitated<br />
698 Fungicides Determination of fungicides in natural waters using <strong>SPME</strong> and 100µm PDMS GC-MS<br />
in water GC coupled with ECD and MS detection 30 min, agitated<br />
J. Chromatorgr A., 893 (2000), 143-156 20% NaCl, pH 4<br />
Lambropoulou, D., Konstantinou, I., Albanis, T. immersed<br />
699 Chlorothalonil Determination of aqueous chlorothalonil with <strong>SPME</strong>-GC 100µm PDMS GC-ECD<br />
in water J. Chromatogr. A, 896 (2000) 105-110<br />
Chen, S., Su, Y., Jen, J.<br />
40 min,<br />
Ambient temperature, unless otherwise indicated. 117
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
800 Alachlor Optimization of alachlor solid-phase micro-extraction from 60µm PDMS/DVB HPLC<br />
in water water samples using experimental design. 120min @ 25°C<br />
J. Chromatogr. A (2000) 896(1-2), 373-379<br />
Gonzalez-Barreiro, C.; Lores, M.; Casais, M. C.; Cela, R.<br />
stirred<br />
293 Acidic herbicides Gas-Phase Post-Derivatization Following <strong>SPME</strong> for 85µm polyacrylate GC-MS<br />
in water Determining Acidic Herbicides in Water 50 min<br />
Anal. Chem. 70 (9): 1963-1968 (1998) immersion, stirring<br />
Lee, M., Lee, R., Lin, Y., Chen, C., Hwang, B. pH 1, salt added<br />
diazomethane (deriv.)<br />
905 Acidic herbicides Derivatisation/<strong>SPME</strong> followed by GC-MS for the analysis GC-MS<br />
in water of phenoxy acid herbicieds in aqueous samples<br />
J. Chromatogr. A (1998),826(2), 211-216<br />
Nilsson, T., Baglio, D., Miguez, I., Madsen, J., Facchetti, S.<br />
898 Acidic herbicides Automated on-line in-tube <strong>SPME</strong> followed by LC/electrospray LC-MS<br />
in water ionization mass spectrometry for the determination of<br />
chlorinated phenoxy acid herbicides in environmental waters<br />
Analyst (Cambridge, U. K.) 2001 , 126(5) 602-608<br />
Takino, Masahiko; Daishima, Shigeki; Nakahara, Taketoshi<br />
763 Profoxydim Application of on-site <strong>SPME</strong> in aquatic dissipation studies 50µm Carbowax-TPR HPLC-UV<br />
in water of profoxydim in rice 30min.<br />
J. Chromatogr A, 909 (2001) 29-36 salt added<br />
Eisert, R, Jackson, S., Krotzky, A. immersed<br />
521 Fungicides <strong>SPME</strong> of the antifouling Irgarol 1051 and fungicides 85µm polyacrylate GC-MS<br />
in water dichlofluanid and 4-chloro-3-methylphenol in water samples 1 hr. @ 60°C<br />
J. Chromatogr. A, (1999), 839(1+2), 253-260<br />
Penalver, A., Pocurull, E., Borrull, F., Marce, R.<br />
immersion, salt added<br />
568 T2 mycotoxin Determination of trichothecene (T2 mycotoxin) in aqueous 85µm polyacrylate GC-FID<br />
in water sample with solid-phase microextraction technique 75 min, immersed<br />
followed by GC-FID satr. salt<br />
J-High-Resolut-Chromatogr. Jul 1999; 22(7): 424-426<br />
Lee,-PK; Kee,-SYK; Ng,-W; Gopalakrishnakone,-P<br />
stirred<br />
294 PAHs <strong>SPME</strong> of PAHs from Aqueous Samples, Using Fibers Coated 100µm silica/epoxy GC-FID, -MS<br />
in water with HPLC Chemically Bonded Silica Stationary Phases 60°C, 30 min<br />
Anal. Chem. 69 (24): 5001-5005 (1997)<br />
Liu, Y., Lee, M., Hageman, K., Yang, Y, Hawthorne, S.<br />
headspace<br />
295 PAHs Separation and Determination of Polycyclic Aromatic<br />
Hydrocarbons by <strong>SPME</strong>/Cyclodextrin-Modified Capillary<br />
Electrophoresis<br />
Anal. Chem. 69 (9): 1726-1731 (1997)<br />
Nguye, A., Luong, J.<br />
700 PAHs Monitoring of PAH in water using headspace <strong>SPME</strong><br />
in water and capillary GC<br />
Microchem J. (1999), 63(2), 276-284<br />
Djozan, D., Assadi, Y.<br />
701 PAHs <strong>SPME</strong> for determining the distribution of sixteen USEPA<br />
in water polycyclic aromatic hydrocarbons in water samples<br />
J. Chromatogr. A. (2000) 879, 177<br />
Doong, R., Chang, S., Sun, Y.<br />
Ambient temperature, unless otherwise indicated. 118
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
296 Aromatics Determination of Aromatic Compounds in Water by <strong>SPME</strong> PDMS chip UV spectroscopy<br />
in water and Ultraviolet Absorption Spectroscopy 30-50 min 220-300nm<br />
Anal. Chem. 69 (1): 1197-1203 (1997)<br />
Wittkamp, B., Hawthorne, S., Tilotta, D.<br />
immersion<br />
344 RDX, TNT metabolites Trace Analysis of salt in Seawater Using <strong>SPME</strong> and Carbowax/DVB GC-MS<br />
in salt water GC-Ion Trap Mass Spectrometry 10 min<br />
Anal. Chem., Vol. 70, No. 14, July 15, 1998, pg. 3015-3020 immersion<br />
Barshick, S., Griest, W. stirring<br />
297 Phthalates, surfactants Characterization of Water-Soluble Components of Slurries 65µm Carbowax/TPR LC-MS<br />
in water Using <strong>SPME</strong> Coupled to LC-MS 1-15 hr.<br />
J. Microcolumn Sep. 10 (2): 225-234 (1998) pH 2, satr. salt<br />
Moder, M., Popp, P., Pawliszyn, J.<br />
598 Organophosphorus Comparative studies of the leachate of an industrial landfill GC-MS<br />
compounds by GC-MS,LC-nuclear magnetic resonance and LC-MS<br />
in leachate J-Chromatogr,-A. 29 Jan 1999; 831(2): 243-256<br />
Benfenati,-E; Pierucci,-P; Fanelli,-R; Preiss,-A<br />
Godejohann,-M; Astratov,-M; Levsen,-K; Barcelo,-D<br />
702 Fatty acids Development of a headspace <strong>SPME</strong> procedure for the 85µm Carboxen/PDMS GC-FID, MS<br />
in waste water determination of free volatile fatty acids in waste water headspace<br />
J Chromatogr. A,(2000) 873(1), 107-115 stirring<br />
Abalos, M., Bayona, J., Pawliszyn, J.<br />
703 Fatty acids Application of GC coupled to chemical ionisation MS following 85µm Carboxen/PDMS GC-CI-MS<br />
in water headspace <strong>SPME</strong> for the determination of free volatile 20 min headspace<br />
fatty acids in aqueous samples.<br />
J. Chromatogr. A 891 (2000) 387-294<br />
Abalos, M., Bayona, J.<br />
3.75 g NaCl, pH 1.5<br />
593 Fatty acids Analysis of volatile fatty acids in waste water 65µm Carbowax/DVB GC-MS<br />
in waste water collected from a pig farm by a <strong>SPME</strong> method. 20 min<br />
Chemosphere. Feb 1999; 38(4): 823-834 immersion<br />
Yo,-S-P stirred<br />
913 Aromatic acids/bases <strong>SPME</strong> with pH adjustment for the determination of aromatic<br />
in water acids and bases in water<br />
J. Chromatogr. A (1998) 829(1-2) 223-233<br />
van Doorn, H., Grabanski, C., Miller, D., Hawthorne, S.<br />
704 Volatile, Solid Phase microextraction: a promising technique for review article<br />
semivolatiles sample preparation in environmental analysis<br />
in water & soil J. Chromatogr. A 889 (2000) 3-14<br />
Alpendurada, M.<br />
972 Alkyl sulfides in water Determination of volatile alkyl sulfides in wastewater.<br />
J.Chromatogr. A (2002) 963(1-2), 249-257<br />
Abalos, M.; Prieto, X.; Bayona, J.M.<br />
PDMS/carboxen GC-MS<br />
975 MTBE in water Determination of MTBE in water by GC-FID<br />
J.Chromatogr. A (2002) 963(1-2), 259-264<br />
Dron, J.; Garcia, R.; Millan, E.<br />
65 um PDMS/DVB GC-FID<br />
976 Butyltin in water<br />
Rapid determination of butyltin species in water samples by multicapillary<br />
GC GC-AED<br />
J.Chromatogr. A (2002) 963(1-2), 195-203.<br />
Carpinterio Botana, J.; Rodriguez Pereiro, I.; Cela Torrijos, R.<br />
978 BHT in bottled water Determination of butylated hydroxytoluene in bottled drinking water.<br />
J.Chromatogr. A (2002) 963(1-2), 179-183<br />
Tombesi, N.B.; Freije, H.<br />
GC-MS<br />
Ambient temperature, unless otherwise indicated. 119
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
979 Nonylphenols in water<br />
980<br />
Determination of short ethoxy chain nonylphenols and their brominated<br />
analogs in raw and treated water.<br />
J.Chromatogr. A (2002) 963(1-2), 159-167<br />
Diaz, A.; Ventura, F.; Galceran, M.T.<br />
DVB/carboxen/PDMS GC-MS<br />
Phenolic pollutants in<br />
water Method for the analysis of thirty phenolic pollutants in water samples.<br />
J.Chromatogr. A (2002) 963(1-2), 137-148<br />
Llompart, M.; Lourido, M; Landin, P.; Garcia-Jares, C.; Cela, R.<br />
75 um carboxen/PDMS GC-MS<br />
981 Carbofuran in water Comparison of SPE and <strong>SPME</strong> for carbofuran in water. HPLC<br />
J.Chromatogr. A (2002) 963(1-2), 117-123<br />
Lopez-Blanco, M.C.; Cancho-Grande, B.; Simal-Gandara, J.<br />
983<br />
993<br />
Sulfur in gaseous<br />
matrices<br />
Quantification of volatile sulfur compounds in complex gaseous matrices by<br />
<strong>SPME</strong> 75 um carboxen/PDMS GC-MS<br />
J.Chromatogr. A (2002) 963(1-2), 57-64<br />
Nielsen, S.T.; Jonnson, S.<br />
Musk compounds in<br />
water. Optimization of <strong>SPME</strong> method for synthetic musk compounds in water. Various GC<br />
J.Chromatogr. A (2002) 963(1-2), 277-285<br />
1001 VOC's in water/soil<br />
1005 Nonylphenols in water<br />
1015 MTBE in water<br />
1023 Nonylphenol in water<br />
1026<br />
1029<br />
MTBE, TAME and TBA<br />
in water.<br />
Antifouling agents in<br />
water<br />
1041 Hydrocarbons in water<br />
1042<br />
Aromatic amines and<br />
PAH in water.<br />
Garcia-Jares, C.; Llompart, M.; Polo, M.; Salgado, C.; Macias, S.; Cela, R.<br />
Determination of volatile organic compounds (VOC) in water and soil using<br />
solid phase microextraction. PDMS GC-MS<br />
Chemia Analityczna (2002) 47 (4), 507-530.<br />
Wypych, J.; Manko, T<br />
Determination of estrogenic short ethoxy chain nonylphenols and<br />
metabolites in river and treated water by SPE (solid phase extraction) and<br />
<strong>SPME</strong> (solid phase microextraction)<br />
Water Sc. Technol. Water Supply (2003) 3 (1-2), 329-334.<br />
Diaz, A.; Galceran, M.T.; Ventura, F.<br />
Determination of MTBE in a recreational harbor using solid-phase<br />
microextraction GC-MS<br />
Chemosphere (2003) 51 (8), 805-810.<br />
Ganske, Jane A.; Green, David B.; Zuccarello, Joseph L.<br />
Trace analysis of technical nonylphenol, bisphenol A and 17alphaethinylestradiol<br />
in wastewater using solid-phase microextraction and gas<br />
chromatography-mass spectrometry. Various GC-MS<br />
J.Chromatogr. A (2003) 988(1), 41-51.<br />
Braun, P.; Engewald, W.; Kuschk, P.; Moeder, M.; Popp, P.; St. Schrader<br />
Improved analysis of MTBE, TAME, and TBA in petroleum fuelcontaminated<br />
groundwater by <strong>SPME</strong> using deuterated internal standards<br />
with GC-MS PDMS-carboxen GC-MS<br />
Environmental Science & Technology (2003) 37 (7), 1392-1397.<br />
Dewsbury, Paul; Lerner, David N.; Thornton, Steven F.<br />
Headspace solid phase microextraction for the analysis of the new<br />
antifouling agents Irgarol 1051 and Sea Nine 211 in natural waters.<br />
Analytica Chimica Acta (2002) 468 (1), 171-180.<br />
Lambropoulou, D. A.; Sakkas, V. A.; Albanis, T. A.*<br />
65 um PDMS-DVB GC-MS<br />
Characterization and source identification of hydrocarbons in water<br />
samples using multiple analytical techniques. GC-MS<br />
Journal of Chromatography, A (2002) 971 (1-2), 173-184.<br />
Wang, Z. D.; Li, K.; Fingas, M.; Sigouin, L.; Menard, L.<br />
Characteristics of poly(methylphenylvinylsiloxane) fibre probe for solidphase<br />
microextraction poly(methylphenylvinylsiloxane) GC<br />
Fenxi Shiyanshi (2002) 21 (5), 75-78.<br />
Zeng, Z. R.; Wang, Y. L.; Yang, M.; Tian, S. Z.<br />
Ambient temperature, unless otherwise indicated. 120
1043<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Methamidophos in<br />
water. Determination of methamidophos residues in water by <strong>SPME</strong>-CGC-MS.<br />
Fenxi Shiyanshi (2002) 21 (5), 28-30<br />
Li, Q.; Liu, H. L.; Wang, J. L.; Chen, H.<br />
100 um PDMS GC-MS<br />
1049 MTBE in water Identification of MTBE in water by <strong>SPME</strong> and GC-MS.<br />
American Laboratory (2002) 34 (21), 34.<br />
Guidotti, M.; Blasi, G.; Lucarelli, E.; Onorati, B.; Ravaioli, G.; Stella, D.<br />
75 um Carboxen/PDMS GC-MS<br />
1058 Chlorophenols in water.<br />
1059 Phenols in water<br />
1069<br />
PAHs from drinking<br />
water.<br />
1093 Cedrol in sea water<br />
1095<br />
1100<br />
Aromatic compounds in<br />
aqueous solutions.<br />
n-alkanes from aqueous<br />
samples<br />
1103 Organic acids in water<br />
1110<br />
Determination of chlorophenols in waste water using direct solid-phase<br />
microextraction-GC 85 um polyacrylate GC-ECD<br />
Fenxi Kexue Xuebao (2002) 18 (5), 421-423.<br />
Zhang, H. Y.; Zhang, J.; Huang, X. H.<br />
260 C, 5 minutes<br />
Determination of phenols in water by solid-phase microextraction-gas<br />
chromatography-mass spectrometry. GC-MS<br />
Fenxi Huaxue (2002) 30 (10), 1240-1242.<br />
Zhao, R. S.; Liu, R. M.*; Cui, Q. X<br />
Coating of solid-phase microextraction fibers with chemically bonded silica<br />
particles: selective extraction of polycyclic aromatic hydrocarbons from<br />
drinking water samples. Various<br />
Journal of Chromatographic Science (2002) 40 (9), 489-494.<br />
Rodrigues, R.; Lacerda, C. A.; Lancas, F. M.*<br />
Determination of cedrol in sea water by <strong>SPME</strong>-GC-MS and its content<br />
variations in redtide sea water.<br />
Fenxi Ceshi Xuebao (2002) 21 (6), 5-8.<br />
Zhao, M. Q.; Li, G. K.; Chen, H.; Zhang, Z. X.<br />
Various GC-MS<br />
Infra-red reflection-absorption method for the detection of aromatic<br />
compounds in aqueous solutions with limited sample volumes.<br />
Analytical Sciences (2002) 18 (11), 1247-1252.<br />
Yang, J.; Chen, P. Y.*<br />
Analysis of n-alkanes at sub microgram per liter level after direct solid<br />
phase microextraction from aqueous samples. GC-FID<br />
Analytical Sciences (2002) 18 (11), 1221-1226.<br />
Farajzadeh, M.; Hatami, M.<br />
Gas-phase analysis of trimethylamine, propionic and butyric acid, and sulfur<br />
compounds using solid-phase microextraction<br />
Analytical Chemistry (2002) 74(5), 1054-1060<br />
Kim, H.; Nochetto, C.; McConnell, L. L.<br />
Phthalate esters from<br />
water. Hollow-fibre liquid-phase microextraction of phthalate esters from water<br />
Journal of Chromatography A (2003) 999 (1-2), 145-153.<br />
Kalogerakis, Nicolas; Psillakis, Elefteria<br />
1111 Haloanisoles in water.<br />
1116 Alkylbenzenesulfonates<br />
Simultaneous determination of "earthy-musty" odorous haloanisoles and<br />
their corresponding halophenols in water samples using solid-phase<br />
microextraction coupled to gas chromatography with electron-capture<br />
detection GC-ECD<br />
Journal of Chromatography A (2003) 999 (1-2), 135-144.<br />
Bruchet, Auguste; Dugay, Jose; Hennion, Marie-Claire; Malleret, Laure<br />
Determination of linear alkylbenzensulfonates in aqueous matrices by ionpair<br />
solid-phase microextraction-in-port derivatization-gas chromatographymass<br />
spectrometry GC<br />
Journal of Chromatography A (2003) 999 (1-2), 51-60.<br />
Alzaga, Roberto; Bayona, Josep Maria; Ortiz, Laura; Pena, Araceli<br />
Ambient temperature, unless otherwise indicated. 121
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1122 Chlorophenols in water<br />
1151<br />
PAH, PCB and<br />
phthalates in water.<br />
1153 Endosulfan in water.<br />
1154 PAH's in water<br />
1155 Phthalate esters<br />
Improved determination of chlorophenols in water by solid-phase<br />
microextraction followed by benzoylation and gas chromatography with<br />
electron capture detection.<br />
Chromatographia (2002) 55(9-10), 595-600<br />
Bianchi, F.; Careri, M.; Mucchino, C.; Musci, M.<br />
65um DVB PDMS,<br />
pentafluorobenzoyl chloride<br />
derivatization<br />
GC-ECD<br />
MultiSimplex optimization of the solid-phase microextraction-gas<br />
chromatography-mass spectrometric determination of polycyclic aromatic<br />
hydrocarbons, polychlorinated biphenyls and phthalates from water<br />
samples.<br />
Journal of Chromatography, A (2002) 978 (1-2), 165-175.<br />
Cortazar, E.; Zuloaga, O. *; Sanz, J.; Raposo, J. C.; Etxebarria, N.;<br />
Fernandez, L. A.<br />
PDMS GC-MS<br />
Optimization of solid-phase extraction and solid-phase microextraction for<br />
the determination of small alpha - and small beta -endosulfan in water by<br />
gas chromatography-electron-capture detection. GC-ECD<br />
Journal of Chromatography, A (2002) 976 (1-2), 293-299.<br />
Lopez-Blanco, M. C.; Reboreda-Rodriguez, B.; Cancho-Grande, B.; Simal-<br />
Gandara, J. *<br />
Application of the novel benzo-15-crown-5 sol-gel coating for solid-phase<br />
microextraction in rapid determination of trace PAHs in water at nonequilibrium<br />
situations. GC<br />
Fenxi Kexue Xuebao (2003) 19 (2), 109-112.<br />
Wang, D. H.; Xing, J.; Wu, C. Y.*<br />
Application of time-resolved luminescence methodology to the<br />
determination of phthalate esters.<br />
Analytical Letters (2003) 36 (5), 1017-1027.<br />
Casas-Hernandez, A. M.; Aguilar-Caballos, M. P.; Gomez-Hens, A. *<br />
1164 Butyltin <strong>SPME</strong>-GCMS for speciation of butyltin compounds in marine environment<br />
Journal De Physique. IV : JP (2003) 107 (II), 1313-1316.<br />
Mahapatra, S.; Puranik, V.D.; Sadasivan, S.; Tripathi, R.M.<br />
PDMS GC-MS<br />
1071<br />
VOC, SVOC in aqueous<br />
solutions.<br />
Fibre introduction mass spectrometry: fully direct coupling of solid-phase<br />
microextraction with mass spectrometry.<br />
Analytical Chemistry (2002) 74 (21), 5688-5692.<br />
Meurer, E. C.; Tomazela, D. M.; Silva, R. C.; Augusto, F.; Eberlin, M. N.*<br />
PDMS FIMS<br />
1072 Extractions with superheated water.<br />
Journal of Chromatography, A (2002) 975 (1), 31-46.<br />
Smith, R. M.<br />
1112 Organotin<br />
1228 BTEX<br />
1167 Glycol ethers<br />
Rapid determination of organotin compounds by headspace solid-phase<br />
microextraction GC<br />
Journal of Chromatography A (2003) 999 (1-2), 123-134.<br />
Le Gac, Marjorie; Lespes, Gaetane; Potin-Gautier, Martine<br />
Determination of siloxane-water partition coefficients by capillary extractionhigh-resolution<br />
gas chromatography. Study of aromatic solvents.<br />
Journal of Chromatography, A (2003) 985 (1-2), 39-45.<br />
Nardi, L.<br />
Optimization of the headspace solid-phase microextraction for<br />
determination of glycol ethers by orthogonal array designs.<br />
Journal of Chromatography, A (2002) 977(1), 11-15<br />
Huang, C. T.; Su, Y. Y.; Hsieh, Y. Z.<br />
Ambient temperature, unless otherwise indicated. 122<br />
75um Carboxen PDMS GC-FID
1168<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Oestrogenic short<br />
ethoxy chain<br />
nonylphenols in water<br />
1182 Biocides in water<br />
Simultaneous determination of oestrogenic short ethoxy chain nonylphenols<br />
and their acidic metabolites in water by an in-sample derivatization/solidphase<br />
microextraction method.<br />
Analytical Chemistry (2002) 75(15), 3869-3876<br />
Diaz, A.; Ventura, F.; Galceran, M. T.<br />
Comparison of the performance of analytical methods based on solid-phase<br />
extraction and on solid-phase microextraction for the determination of<br />
antifouling booster biocides in natural waters. GC-MS<br />
Chromatographia (2002) 56 (11-12), 745-751.<br />
Konstantinou, I. K.; Hela, D. G.; Lambropoulou, D. A.; Sakkas, V. A.;<br />
Albanis, T. A.*<br />
1184 Phthalates in water Solid-phase microextraction of phthalates from water.<br />
Journal of Chromatography A (2001) 938(1-2), 93-101<br />
Luks-Betlej, K.; Janoszka, B.; Paschke, H.; Popp, P.<br />
70um Carbowax DVB<br />
1188 Mercury in sea water.<br />
1189<br />
Endosulfan in aqueous<br />
samples.<br />
Speciation of mercury compounds by gas chromatography with atomic<br />
emission detection. Simultaneous optimization of a headspace solid-phase<br />
microextraction and derivatization procedure by use of chemometric<br />
techniques.<br />
Chromatographia (2002) 56 (11-12), 733-738.<br />
Carro, A. M.; Neira, I.; Rodil, R.; Lorenzo, R. A.<br />
PDMS GC-MIP AES<br />
Optimization and application of <strong>SPME</strong> for the gas chromatographic<br />
determination of endosulfan and its major metabolites in the ng L-1 range in<br />
aqueous solutions.<br />
Analytical and Bioanalytical Chemistry (2003) 376 (1), 61-68.<br />
Frimmel, F. H.; Deger, A. B.; Gremm, T. J.; Mendez, L.<br />
PDMS GC-ECD<br />
1206 MTBE in water Methyl tert-butyl ether (MTBE) in urban and rural precipitation in Germany. 75um Carboxen PDMS GC-MS<br />
1213 VOC's in groundwater.<br />
Atmospheric Environment (2001) 35(36), 6337-6345<br />
Achten, Christine; Kolb, Axel; Puettmann, Wilhelm<br />
Monitoring and evolution of the pollution by volatile organic compounds<br />
(VOCs) in the groundwaters of the Najerilla River Basin (Spain) 75 um Carboxen/PDMS GC-FID<br />
International Journal of Environmental Analytical Chemistry (2003) 83 (6),<br />
495-506.<br />
Fernandez-Torroba, Miguel A.; Ortiz, Gustavo; Pons, Begona; Tena, Maria<br />
Teresa<br />
1221 BTEX In-tube solid-phase microextraction sampler for long-term storage.<br />
Journal of Chromatography, A (2003) 985 (1-2), 93-98.<br />
Nardi, L.<br />
1222 PAHs<br />
1223 Phthalates in water<br />
1234 Organotin<br />
Determination of polycyclic aromatic hydrocarbons in water by capillary solidphase<br />
microextraction coupled with high-performance liquidchromatography.<br />
HPLC<br />
Fenxi Huaxue (2003) 31 (2), 171-174.<br />
Chen, S.; Hahn, J. H.; Quan, X.; Lim, K. S.; Yang, F. L.<br />
Solid-phase microextraction coupled with high performance liquid<br />
chromatography-UV detection for the determination of di- n -propylphthalate,<br />
di- iso -butyl-phthalate, and di-cyclohexyl-phthalate in<br />
environmental water samples. HPLC<br />
Analytical Letters (2003) 36 (2), 389-404.<br />
Cai, Y. Q.; Jiang, G. B.*; Liu, J. F.<br />
Validation, using a chemometric approach, of gas chromatographyinductively<br />
coupled plasma-atomic emission spectrometry (GC-ICP-AES) for<br />
organotin determination. GC-ICP-AES<br />
Analytical and Bioanalytical Chemistry (2003) 376 (1-2), 226-235.<br />
Lespes, Gaetane; Aguerre, Sandrine; Pecheyran, Christophe<br />
Ambient temperature, unless otherwise indicated. 123
1241<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Chlorinated paraffins in<br />
water.<br />
1256 Dioxin in water<br />
1258 Beta-endosulfan<br />
1260 PCBs in water.<br />
Solid-phase microextraction for the analysis of short-chain chlorinated<br />
paraffins in water samples.<br />
Journal of Chromatography, A (2003) 984 (1), 1-8.<br />
Castells, P.; Santos, F. J.; Galceran, M. T.*<br />
Various. GC-ECD<br />
Rapid determination of 2,3,7,8-tetrachlorodibenzo- p -dioxin in water<br />
samples by using solid-phase microextraction followed by gas<br />
chromatography with tandem mass spectrometry.<br />
Journal of AOAC International (2003) 86 (1), 44-49.<br />
Various GC-TMS<br />
Landin, P.; Llompart, M.; Lourido, M.; Garcia-Jares, C.; Carro, N.; Cela, R.<br />
Application of single-drop microextraction and comparison with solid-phase<br />
microextraction and solid-phase extraction for the determination of small<br />
alpha - and small beta -endosulfan in water samples by gas<br />
chromatography-electron-capture detection. GC-ECD<br />
Journal of Chromatography, A (2003) 984 (2), 245-252.<br />
Lopez-Blanco, M. C.; Blanco-Cid, S.; Cancho-Grande, B.; Simal-Gandara, J.<br />
*<br />
Analysis of polychlorinated biphenyls in aqueous samples by microwaveassisted<br />
headspace solid-phase microextraction<br />
Journal of Chromatography, A (2003) 1008 (1), 1-12.<br />
Huang, Yaping; Shu, Youn Yuen; Tardif, Mylaine; Wang, Shu Shing<br />
Headspace GC-FID<br />
1263 PCBs in water Determination of PCBs in the Housatonic River, MA by <strong>SPME</strong> and GC-ECD.<br />
Abstracts of Papers American Chemical Society (2003) 225 (1-2), CHED<br />
317.<br />
Wells, James; Schaumloffel, John C.<br />
1264 n-alkanes in water<br />
1265 PAHs from water<br />
A new selective <strong>SPME</strong> fiber for some n-alkanes and its use for headspace<br />
sampling of aqueous samples Cellulose acetate, PVC<br />
Journal of Separation Science (2002) 26 (9-10), 802-808.<br />
Farajzadeh, Mir Ali; Hatami, Mehdi<br />
Extraction of polycyclic aromatic hydrocarbons and organochloride<br />
compounds from water: A comparison between solid-phase microextraction<br />
and stir bar sorptive extraction GC-MS<br />
Journal of Separation Science (2002) 26 (9-10), 961-967.<br />
Bauer, Coretta; Hauser, Barbara; Keil, Petra; Popp, Peter; Wennrich, Luise<br />
1267<br />
Experimental design applied to the determination of several contaminants<br />
Solvents from varnishes. in Duero River by solid-phase microextraction.<br />
Analytica Chimica Acta (2003) 477 (2), 257-267.<br />
Salafranca, J.; Domeno, C.; Fernandez, C.; Nerin, C. *<br />
Various GC-MS<br />
1278 VOCs in groundwater.<br />
1298<br />
Trace organic<br />
compounds in waste<br />
water.<br />
1300 Triazines in water.<br />
Development and validation of a solid-phase microextraction method for the<br />
analysis of volatile organic compounds in groundwater samples.<br />
Chromatographia (2003) 41 (6), 301-304.<br />
Alonso, A.; Fernandez-Torroba, M. A.; Tena, M. T.; Pons, B. *<br />
Various GC<br />
Development of an <strong>SPME</strong>-GC-MS method for trace organic compounds in<br />
waste water from a petrochemical refinery. GC-MS<br />
Sepu (2003) 21 (1), 76-80.<br />
Xiao, K.; Wang, Y.; Lu, X.; Kong, H. W.; Yao, Q. H.; Xu, G. W.*<br />
Optimization of a solid-phase microextraction procedure for the<br />
determination of triazines in water with gas chromatography-mass<br />
spectrometry detection.<br />
Journal of Chromatography, A (2003) 1007 (1-2), 127-135.<br />
Frias, S.; Rodriguez, M. A.*; Conde, J. E.; Perez-Trujillo, J. P.<br />
Various GC-MS<br />
Ambient temperature, unless otherwise indicated. 124
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1322 Aldehydes in water<br />
1335 Phenol species in water.<br />
1340 PAH's in water.<br />
1351 Phenols from water.<br />
1357 Phthalates in water.<br />
1358<br />
Analysis of aldehydes in water by solid-phase microextraction with on-fiber<br />
derivatization<br />
Journal of Chromatography, A (2003) 1015 (1-2), 143-150.<br />
Chang, Chun-Ming; Tsai, Shih-Wei<br />
PDMS/DVB GC-MS<br />
Determination of iodinated phenol species at parts-per-trillion concentration<br />
levels in different water samples by solid-phase microextraction/offline GC-<br />
ICP-MS Various GC-ICP-MS<br />
Journal of Analytical Atomic Spectrometry (2003) 18 (9), 1119-1124.<br />
Caruso, Joseph A.; De Wuilloud, Jorgelina C.A.; Vonderheide, Anne P.;<br />
Wuilloud, Rodolfo G.<br />
Solid-phase microextraction to monitor the sonochemical degradation of<br />
polycyclic aromatic hydrocarbons in water. GC-MS<br />
Journal of Environmental Monitoring (2003) 5 (1), 135-140.<br />
Psillakis, E.; Ntelekos, A.; Mantzavinos, D.; Nikolopoulos, E.; Kalogerakis,<br />
N.<br />
Investigations on the sorption of phenols to dissolved organic matter by a<br />
QSAR study.<br />
Chemosphere (2001) 45(3), 323-327.<br />
Ohlenbusch, G.; Frimmel, F. H.<br />
85 um polyacrylate GC-MS<br />
Miniaturized solid-phase extraction as a sample preparation technique for<br />
the determination of phthalates in water. HPLC<br />
Analytical and Bioanalytical Chemistry (2002) 373(1-2), 81-86.<br />
Saito, Y.; Nakao, Y.; Imaizumi, M.; Morishima, Y.; Kiso, Y.; Jinno, K. *<br />
PAH, PCB, pesticides<br />
and VOC Sorptive sample preparation long dash a review.<br />
Analytical and Bioanalytical Chemistry (2002) 373(1-2), 3-22.<br />
Baltussen, E.; Cramers, C. A.; Sandra, P. J. F.<br />
PDMS<br />
1374 Tin and lead.<br />
1376<br />
1383<br />
1405<br />
Volatile compounds in<br />
water.<br />
Phenylurea herbicides in<br />
water.<br />
Organophosphorous<br />
pesticides in water.<br />
1407 Butyltin in water<br />
Determination of tin- and lead-organic compounds by <strong>SPME</strong>-GC-atomicemission<br />
detection (<strong>SPME</strong>-GC-AED) after in situ propylation with sodium<br />
tetrapropylborate. GC-AED<br />
Journal of Analytical Atomic Spectrometry (2001) 16(10), 1160-1166.<br />
Crnoja, M.; Haberhauer-Troyer, C.; Rosenberg, E. *; Grasserbauer, M.<br />
Simultaneous determination of traces of hydrophilic and volatile compounds<br />
in water by solid-phase microextraction and GC/MS. GC-MS<br />
Bunseki Kagaku (2001) 50(10), 685-693.<br />
Miyazaki, T.; Kadokami, K.; Tukamoto, H.<br />
Determination of phenylurea herbicides in natural waters at concentrations<br />
below one nanogram-per-litre using solid-phase extraction, derivatization,<br />
and solid-phase microextraction-gas chromatography-mass spectrometry. Polyacrylate GC-MS<br />
Journal of Chromatography, A (2001) 930(1-2), 9-19.<br />
Gerecke, A. C.; Tixier, C.; Bartels, T.; Schwarzenbach, R. P.; Mueller, S.<br />
R.*<br />
Comparison between solid-phase extraction methods for the<br />
chromatographic determination of organophosphorus pesticides in water.<br />
Journal of Environmental Science and Health Part B Pesticides Food<br />
Contaminants and Agricultural Wastes (2001) B36(5), 517-527.<br />
Lancas, Fernado M.; Carvalho, Dermeval; Queiroz, Maria E. C.; Silva,<br />
Silvana M<br />
Occurrence of butyltin compounds in the waters of selected lakes, rivers<br />
and coastal environments from China. GC-FID<br />
Environmental Pollution (2001) 115(1), 81-87.<br />
Jiang Gui-bin; Liu Ji-yan; Wu Di-jing; Zhou Qun-fang<br />
Ambient temperature, unless otherwise indicated. 125
1408<br />
1416<br />
1419<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Alkylphenols and<br />
bisphenol-A<br />
Nitroaromatic<br />
compounds in water.<br />
Phthalate esters from<br />
water.<br />
1425 MTBE in water<br />
1431 Organotin compounds<br />
1432 Tributyltin<br />
1436 Chloroanilines in water<br />
1444 Amines in water<br />
1449 Amines in water<br />
1450 MTBE in water<br />
Alkylphenols and bisphenol-A in the coastal environment of Singapore and<br />
their rapid extraction from seawater and biological materials.<br />
Abstracts of Papers American Chemical Society (2001) 222(1-2), ENVR155.<br />
Lee, Hian Kee; Chanbasha, Basheer<br />
Screening method for nitroaromatic compounds in water based on solidphase<br />
microextraction and infrared spectroscopy. IR<br />
Environmental Science & Technology (2001) 35(17), 3507-3512.<br />
Tilotta, David C.; Stahl, Danese C.<br />
Comparison of different fibers for the solid-phase microextraction of<br />
phthalate esters from water.<br />
Journal of Chromatography A (2001) 922(1-2), 377-384.<br />
Pocurull, E.; Borrull, F.; Marce, R. M.; Penalver, A.<br />
65 um PDMS/DVB GC-MS<br />
A rapid and sensitive method for methyl tert-butyl ether analysis in water<br />
samples by use of solid phase microextraction and gas chromatographymass<br />
spectrometry.<br />
Chemosphere (2001) 44(4), 539-544.<br />
Roda, Aldo; Barbieri, Anna; Piazza, Francesco; Violante, Francesco<br />
Saverio<br />
DVB/carboxen/PDMS GC-MS<br />
Optimisation of the hyphenation between solid-phase microextraction ,<br />
capillary gas chromatography and inductively coupled plasma atomic<br />
emission spectrometry for the routine speciation of organotin compounds in<br />
the environment GC-ICP-AES<br />
J Anal At Spectrom (2001) 16(12), 1429-1433.<br />
Aguerre, S.; Donard, O.F.X.; Krupp, E.; Lespes, G.; Pecheyran, C.; Potin-<br />
Gautier, M.<br />
Speciation without chromatography: Part I. Determination of tributyltin in<br />
aqueous samples by chloride generation, headspace solid-phase<br />
microextraction and inductively coupled plasma time of flight mass<br />
spectrometry PDMS/DVB ICP-TOFMS<br />
J Anal At Spectrom (2001) 16(11), 1313-1316.<br />
Lam, J.W.; Maxwell, P.S.; Mester, Z.; Peter, L.; Sturgeon, R.E.<br />
Comparison of <strong>SPME</strong>/Transmission IR and <strong>SPME</strong>/ATR-IR spectroscopic<br />
methods in detection of chloroanilines in aqueous solutions<br />
Applied Spectroscopy (2001) 55(7), 919-926.<br />
Tsai, F.-P.; Yang, J.<br />
Analysis of carcinogenic aromatic amines in water samples by solid-phase<br />
microextraction coupled with high-performance liquid chromatography<br />
Anal. Chim. Acta (2003) 495(1-2) 109-122<br />
Chang, Wei-Yan; Huang, Shang-Da; Sung, Yu-Hsiang<br />
Determination of aliphatic amines using N-succinimidyl benzoate as a new<br />
derivatization reagent in gas chromatography combined with solid-phase<br />
microextraction<br />
Journal of Chromatography A (2003) 1021 (1), 175-181<br />
Cai, Ling-Shuang; Jing, Zhi-Zhong; Wang, Hong; Yu, Jian-Xin; Zhang, Hua-<br />
Shan; Zhao, Yuan-Yuan<br />
Reevaluation of headspace solid-phase microextraction and gas<br />
chromatography-mass spectrometry for the determination of methyl tertbutyl<br />
ether in water samples<br />
Journal of Chromatography A (2003) 1021(1), 157-164<br />
Bucciferro, Anthony; Chu, Shaogang; Fang, Fu; Hong, Chia-Swee; Kou,<br />
Wenpeng<br />
Ambient temperature, unless otherwise indicated. 126<br />
Various fibers compared HPLC<br />
Headspace after derivatization<br />
with N-succinimidyl benzoate<br />
GC-FID, GC-MS<br />
GC-MS
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1460 PCBs in water<br />
1475 MTBE in water<br />
1480 MIB in drinking water<br />
1484<br />
1488<br />
1493<br />
2-hydroxy-4methoxybenzophenone<br />
and octyldimethyl-paminobenzoic<br />
acid<br />
sunscreen agents in<br />
water<br />
Organochlorines in<br />
water<br />
Estrogenic compounds<br />
in water<br />
1504 Mehylmercury in water<br />
1536<br />
1538<br />
Phthalic acid esters in<br />
water<br />
Phenolic compounds in<br />
water<br />
1552 Chlorophenols in water<br />
1354<br />
Aldehydes in drinking<br />
water<br />
Strategically designed sample composition for fastest screening of<br />
polychlorinated biphenyl congeners in water samples.<br />
Journal of Environmental Monitoring (2002) 4(4), 490-497<br />
Martinez, E.; Llompart, M. P.; Landin, P.; Cela, R.; Carro, A. M.<br />
Sensitive method for determination of methyl tert-butyl ether (MTBE) in<br />
water by use of headspace-<strong>SPME</strong>/GC-MS.<br />
Fresenius' Journal of Analytical Chemistry (2001) 371(4), 519-525<br />
Achten, Christine; Kolb, Axel; Puettmann, Wilhelm<br />
Correlation of musty odor and 2-MIB in two drinking water treatment plants<br />
in South Taiwan.<br />
Science of the Total Environment (2002) 289(1-3), 225-235<br />
Lin, Tsair-Fuh; Kao, Hsiao-Pin; Wong, Jiun-Yue<br />
Gas chromatographic determination of 2-hydroxy-4-methoxybenzophenone<br />
and octyldimethyl-p-aminobenzoic acid sunscreen agents in swimming pool<br />
and bathing waters by solid-phase microextraction<br />
Journal of Chromatography A (2002) 967(2), 243-253<br />
Albanis, T. A.; Giokas, D. L.; Karayannis, M. I.; Lambropoulou, D. A.;<br />
Sakkas, V. A.<br />
Determination of organochlorides in water using solid-phase microextraction<br />
coupled to gas chromatography.<br />
American Laboratory (2002) 34(17), 12-14<br />
Ou Qing-Yu; Liang Bing; Li Ju-bai; Huang Min-jia<br />
Method based on solid-phase microextraction-high-performance liquid<br />
chromatography with UV and electrochemical detection to determine<br />
estrogenic compounds in water samples.<br />
Journal of Chromatography A (2002) 964(1-2), 153-160<br />
Pocurull, E.; Borrull, F.; Marce, R. M.; Penalver, A.<br />
Application of <strong>SPME</strong> for the quantitative determination of methylmercury in<br />
aqueous solutions.<br />
Abstracts of Papers American Chemical Society (2002) 223(1-2) CHED<br />
125<br />
Moore, J. Taylor; McDowell, Derek R.; Ambler, Rich B.<br />
Development of a solid-phase microextraction method for the determination<br />
of phthalic acid esters in water.<br />
Analytica Chimica Acta (2002) 457(2), 211-223<br />
Holadova, Katerina; Hajslova, Jana; Poustka, Jan; Prokupkova, Gabriela<br />
Solid-phase microextraction coupled to high-performance liquid<br />
chromatography to determine phenolic compounds in water samples.<br />
Journal of Chromatography A (2002) 953(1-2), 79-87<br />
Marce, R. M.; Borrull, F.; Penalver, A.; Pocurull, E.<br />
Determination of chlorophenols by solid-phase microextraction and liquid<br />
chromatography with electrochemical detection.<br />
Journal of Chromatography A (2002) 947(2), 155-165<br />
Galceran, M. T.; Santos, F. J.; Sarrion, M. N.<br />
Determination of aldehydes in drinking water using<br />
pentafluorobenzylhydroxylamine derivatization and solid-phase<br />
microextraction<br />
Journal of Chromatography A (2002) 943(1), 1-13<br />
Ventura, Francesc; Cancho, Beatriz; Galceran, Ma. Teresa<br />
Ambient temperature, unless otherwise indicated. 127<br />
75um Carboxen/PDMS,<br />
headspace<br />
100um PDMS, 85um<br />
Polyacrylate<br />
85um Polyacrylate<br />
GC-MS<br />
GC-MS<br />
GC<br />
HPLC-UV, HPLC-<br />
ED<br />
Various fibers compared GC-ECD<br />
85um Polyacrylate HPLC-UV<br />
Various fibers compared HPLC-ELCD<br />
65um DVB PDMS, on-fiber<br />
derivatization with PFBHA<br />
GC-ECD
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1156 Chlorophenols<br />
1166<br />
Mercury and tin in<br />
environmental samples.<br />
1074 Tributyltin<br />
Solid-phase microextraction liquid chromatography/tandem mass<br />
spectrometry for the analysis of chlorophenols in environmental samples.<br />
Rapid Communications in Mass Spectrometry (2002) 17 (1), 39-48.<br />
Sarrion, M. N.; Santos, F. J.; Moyano, E.; Galceran, M. T.*<br />
Carbowax/TPR LC-TMS<br />
Simultaneous mercury and tin speciation in environmental samples by GC-<br />
MIP/AES after preconcentration by solid phase microextraction PDMS GC-MIP/AES<br />
Journal De Physique. IV : JP (2003) 107 (II), 1423.<br />
Carrera, R.; De Diego, A.; Delgado, A.; Madariaga, J.M.; Sanz, J.; Zuloaga,<br />
O.<br />
Improvement of measurement precision of <strong>SPME</strong>-GC/MS determination of<br />
tributyltin using isotope dilution calibration. GC-MS<br />
Analytical Chemistry (2002) 74 (21), 5606-5613.<br />
Bancon-Montigny, C.; Maxwell, P.; Yang, L.; Mester, Z.; Sturgeon, R. E.<br />
1952 Methyl Determination of methylphosphonic acid in water by <strong>SPME</strong>-GC GC<br />
phosphoric Fenxi Ceshi Xuebao, 23, #1, 106-108<br />
acid in wate Yuan, L.; Xu, D. N.<br />
1953 Nickle-cadmium Electrochemically controlled (EC) <strong>SPME</strong> based sulfortated polypyrrole ETAAS<br />
from water on over oxidized sulfonate polypyrrole coated fiber<br />
Talanta, 67, #1,, 245-251 immersed<br />
Ertas, N; Pekmez, K; Sahin, Y; Tamer, U Udum, Y.;<br />
Yildiz, A.<br />
1954 Industrial Risk assessment of domestic and industrial effluents GC-MS<br />
effluent in unloaded into a freshwater environment<br />
freshwater Ecotoxicology & Environmental Safety, 61, #3, 380-391<br />
Di Marzio, W.; Saenz, M.; Alberdi, J.;<br />
Tortorelli, M.; Silvana, G.<br />
1955 Alkanethiols Low part per trillion determination of reactive N-ethylmaleimide GC-MS<br />
in wastewater alkanethiols in wastewater by in situ derivatization- derivatives<br />
<strong>SPME</strong> followed by GC/MS immersion sampling<br />
Anal. Chem., 77, #18, 6012-6018<br />
Alzaga, R.; Bayona, J.M.; Garcia-Jares, C.;<br />
Llompart, M.; Salgado-Petinal, C.<br />
1956 Chromium in Determination of total chromium in seawater by PDMS fiber ICPMS<br />
seawater isotope dilution sector field ICPMS using GC s TFA derivatives<br />
sample introduction headspace<br />
Anal. Chem., 76, #13, 3510-3516<br />
Abranko, L; Mester, ; Sturgeon, .; Yang, L<br />
1957 Chromium in Determination of chromium(III) in water by <strong>SPME</strong> polyimide fiber GC-FPD<br />
Water w/ polyimide-coated fiber and GC-FPD TFA derivatives<br />
J. Chromatogr. A, 1062, #1, 49-55<br />
Ding, Tzuoo-Huei; Lin, Huang-Huei; Whang, Chen-Wen<br />
1958 Organics <strong>SPME</strong>: A powerful sample preparation tool prior to review article GC-MS, LC-MS<br />
in water mass spectrometric analysis<br />
J. Mass Spectrom.(2004) 39(3), 233-254<br />
Vas, Gyorgy; Vekey, Karoly<br />
1959 Butyltin in Comparison between headspace and aqueous phase <strong>SPME</strong> headspace & GC<br />
sea water method for speciation analysis of butyltin compounds immersion sampling<br />
in sea water<br />
J Food and Drug Analysis, 12, #3, 205-211<br />
Hsia, Meng-Pei; Hsu, Tau-Being; Liu, Shiu-Mei<br />
1960 Hg,Pb,Tn Multielemental speciation analysis of organometallic Various fibers GC-MS<br />
in water & compounds of mercury, lead, and tin in natural water NaEt 4B derivatives<br />
seawater samples by headspace-<strong>SPME</strong> followed by GC-MS headspace<br />
J. Chromatogr. A, 1034,#1-2, 191-197<br />
Centineo, G; Gonzalez, E; Sanz-Medel, A<br />
Ambient temperature, unless otherwise indicated. 128
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1961 MTBE in Reevaluation of headspace <strong>SPME</strong>-GC-MS for the headspace GC-MS<br />
water determination of methyl tert-butyl either in water samples<br />
J. Chromatogr. A, 1021, #1-2, 157-164<br />
Fang, Fu; Hong, Chia-Swee; Chu, S; Kou, W; Bucciferro, A<br />
1962 Diacetyl Odor Identification of 2,3-butanedione (diacetyl) as the 75µm Carboxen GC-MS<br />
in water compound causing odor events at trace levels in the 30min @ 60°C<br />
Llobregat River and Barcelona's treated water (Spain) NaEt 4B derivative<br />
J. Chromatogr. A, 1034, #1-2, 175-182 Headspace<br />
Diaz, A.; Galceran, Ma. Teresa; Ventura, F.<br />
1963 Odors/volatiles Simultaneous determination of 22 volatile organic compounds, 100µm PDMS GC-MS<br />
in water methyl-tert-butyl ether,1,4-dioxane, 2-methylisoborneol and headspace<br />
geosmgeosmin in water by headspace <strong>SPME</strong>-GC-MS<br />
Anal. Chim. Acta, 548, #1-2, 79-85<br />
Daishima, Shigeki; Nakamura, Sadao<br />
1964 Alkyl lead Study of alkyl lead speciation by Head Space (HS)- Headspace GC-MS<br />
in water <strong>SPME</strong> coupled with GC-MS<br />
Fenxi Shiyansh, 23, #2, 14-17<br />
Shuai, Q.; Zheng, C; Shuai, Q.; Yang, W.; Zheng, Y.<br />
1965 C2-C7 Fatty Volatile fatty acids as malodorous compounds in headspace GC-CI-MS<br />
acids in wool scouring water and lanolin. Origin and<br />
water/lanolin characterization.<br />
Env Technology, 24, #12, 1465-1470<br />
Jover, E.; Abalos, M.; Ortiz, L.; Bayona, J.<br />
1966 Volatile <strong>SPME</strong> of volatile oxidation compounds in oil-in-water headspace GC-FID.<br />
oxidative emulsions 50°C for 20 min.<br />
products in Food Chemistry, 92, #3, 401-406<br />
oil-water Beltran, G; Aguilera, M; Gordon, Michael H.<br />
1967 Organometallic Full automation of derivatization:<strong>SPME</strong>-GC-MS phenyl derivative GC-MS<br />
derivatives with dual-arm system for the determination of headspace<br />
in water organometallic compounds in aqueous samples.<br />
J Chromatogr A, 1025, #1, 77-84<br />
Parkinson, D; Bruheim, I; Christ, I; Pawliszyn, J<br />
1968 Methyl Determination of methylmercury and mercury(II) in a marine headspace GC-MS<br />
mercury from ecosystem using <strong>SPME</strong>--GC-MS Na(C 6H 5) 4B<br />
seawater Anal. Chim. Acta, 551, #1-2, 192-198 derivative<br />
Bhalke, S.; Mishra, S.; Puranik, V.D.; Shukla, V.K.; Tripathi, R.M.<br />
1969 Mercury Speciation analysis of mercury by <strong>SPME</strong> and multicapillary 75µm Carboxen ICP-TOF-MS<br />
from wate/ GC hyphenated to ICP-TOF spectrometry. NaEt 4B derivatives<br />
sediment J Chromatogr A, 1055, #1-2, 197-207 headspace<br />
Jitaru, P.; Adams, F. C.*<br />
1970 BTEX in Diffusion-based calibration for <strong>SPME</strong>of benzene, headspace GC<br />
water toluene, ethylbenzene, p-xylene and chlorobenzenes<br />
from aqueous samples<br />
J Chromatogr A, 1025, #1, 11-16<br />
Paschke, A.; Popp, P.<br />
1971 Chlorinated Indirect determination of low vapour pressures using <strong>SPME</strong> - minutes to hour GC<br />
benzenes Application to tetrachlorobenzenes & trachlorbenyltoluenes headspace<br />
J Chromatogr A, 1072, #1, 93-97<br />
Paschke, Albrecht; Schroter, Uwe; Schuurmann, Gerrit<br />
1972 Organo- Determination of organophosphorus pesticides in immersed sampling GC-MS<br />
phosphorus spiked river water samples using <strong>SPME</strong>-GC With GC-ICP-MS<br />
pesticides EI-MS and ICP-MS detection<br />
in water J Anal At Spectrom, 20, #9, 876-882<br />
Blanco-Gonzalez, E; Fidalgo-Used, N; Montes-Bayon, M;<br />
Sanz-Medel, A<br />
Ambient temperature, unless otherwise indicated. 129
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1973 Pyrethroids Determination of enantiomers of synthetic GC<br />
in water pyrethroids in water by <strong>SPME</strong><br />
enantioselective gas chromatography.<br />
J Agrl Food Chem, 52, #4, 736-741<br />
Liu, W. P.; Gan, J. J.*<br />
1974 Polybrominate Development of a <strong>SPME</strong>-GC-MS method for poly- headspace GC-MS<br />
diphenyls/ brominated diphenyl ethers and polybrominated<br />
biphenyls biphenyls in water sample<br />
in water Analytical Chemistry, 76, #4, 1054-1062<br />
Polo, M.; Gomez-Noya, G.; Quintana, J. B.; Llompart, M.;<br />
Garcia-Jares, C.; Cela, R.<br />
1975 Polybrominate Photochemical studies of a polybrominated diphenyl GC<br />
diphenyl ether ethers (PBDES) technical mixture by <strong>SPME</strong><br />
from water Chemosphere, 60, #7, 922-928<br />
Cela, R.; Garcia-Jares, C.; Gonzalez-Barreiro, C.;<br />
Llompart, M.; Lores, M.; Sanchez-Prado, L.<br />
1976 PCBs in Determination of PDMS-seawater distribution 100µm PDMS GC-MS<br />
water coefficients for PCBs and chlorinated biphenyls 12 day extraction<br />
and chlorinated pesticides by <strong>SPME</strong>-GC-MS immersion<br />
J. Chromatogr. A,1066, #1-2, 165-175<br />
Zeng, E; Tsukada, D; Noblet, J.; Peng, J<br />
1977 Phthalate Multivariate optimization of a <strong>SPME</strong> method for the Various fibers GC-MS<br />
esters in analysis of phthalate esters in environmental waters direct immersion &<br />
water J. Chromatogr. A,1072, #1, 63-72 headspace<br />
Cela, R; Garcia-Jares, C; Llompart, M Polo, M<br />
1978 Tin compounds New approach of <strong>SPME</strong> improving the extraction Ethylate derivatives GC<br />
in water yield of butyl and phenyltin compounds by combining headspace<br />
the effects of pressure and type of agitation agitated<br />
J. Chromatogr. A,1072, #1, 19-27<br />
Bueno, M; Darrouzes, J; Holeman, M; Pecheyran, C;<br />
Potin-Gautier, M<br />
1979 Aliphatic Determination of aliphatic amines using N-succinimidyl 60min @ 80°C GC-MS<br />
amines benzoate as a new derivatization reagent in headspace GC-FID<br />
in water GC combined with <strong>SPME</strong> succinimidyl benzoate<br />
J. Chromatogr. A,1021, #1-2, 175-181 derivatives<br />
Zhao, Y.; Cai, L.; Jing, Z.; Wang, H.; Yu, J.; Zhang, H.<br />
1980 Aromatic In situ derivatization/<strong>SPME</strong> determination of polar 65µm PDMS-DVB GC-MS<br />
amines in aromatic amines. diazotation/ iodination<br />
water Analytical Chemistry, 76, #4, 1028-1038<br />
Zimmermann, T.; Ensinger, W. J.; Schmidt, T. C.*<br />
1981 Aromatic Determination of aromatic amines in waste water by GC<br />
amines in <strong>SPME</strong>-GC<br />
water Fenxi Ceshi Xuebao, 23, #3, 18-21<br />
Peng, J. G.; Wang, D. H.; Wu, C. Y.<br />
1982 Phenols in Comparative study of the use of flow-through 80µm polyacrylate GC<br />
water systems with and without air segmentatio 100µm PDMS<br />
determination of phenols by <strong>SPME</strong>-GC immersed<br />
Chromatographia, 59, #5-6, 387-391<br />
Nome, R. C.; Carasek, E. *<br />
1983 Aldehydes Determination of low-molecular mass aldehydes by automated headspace GC-FID<br />
in water headspace spme with in-fibre derivatisation PFBHA derivatives<br />
J. Chromatogr. A, 1071, #1-2, 147-154<br />
O'Reilly, John; Pawliszyn, Janusz; Wang, Qing<br />
1984 Aldehydes in Determination of low-molecular mass aldehydes by automated PFBHA derivatives GC-FID<br />
water headspace <strong>SPME</strong> with in-fibre derivatization headspace<br />
J. Chromatogr. A, 1071, #1-2,147-154<br />
Wang, Qing; O'Reilly, John; Pawliszyn, Janusz<br />
Ambient temperature, unless otherwise indicated. 130
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1985 Organochlorine Analysis of organochlorine pesticides in water by GC-MS<br />
pesticides novel activated carbon fiber <strong>SPME</strong> coupled w/GC-MS<br />
in water J. Environ. Sci. Health Part B, 39, #2, 235-248<br />
Fang, N; Jia, J; Sun, T; Wang, Y; Yu, J<br />
1986 Organochlorine Optimization of a methodology for the determination 85µm polyacrylate GC-MS<br />
pesticides of organochlorine pesticides in surface water by 40min @ >20°C<br />
in water <strong>SPME</strong>-GC-MS agitation<br />
J. Environ. Sci. Health Part B, 40, #4, 513-523 immersed sampling<br />
Brondi, Silvia Helena G.; Lancas, Fernando M.<br />
1987 Pesticides in GC-MS methodology using <strong>SPME</strong> for the multiresideu 65µm PDMS-DVB GC-SIM-MS<br />
surface water determination of pesticides in surface waters.<br />
Intl J Env Analytical Chem, 84, #14-15, 1079-1092<br />
Albanis, T; Hela, D.; Lambropoulou, D.; Sakkas, V.<br />
1988 Endosulfan, Pesticides in Esteros del Ibera (AR): Evaluation of immersed sampling GC-MS<br />
carbofuran impacts and proposal of guidelines for water<br />
in water quality protection<br />
Ecol. Model., 86, #1, 85-97<br />
Boia, C; Borrego, C; Silva, C; Valente, J<br />
1989 Endosulfan, Optimization and application of <strong>SPME</strong> for the GC 100µm PDMS GC-ECD<br />
in water determination of endosulfan and its major metabolites 30% NaCl GC-MS<br />
in the ng L/sup-1 / range in aqueous solutions<br />
Anal. Bioanal. Chem., 376, #1, 61-68<br />
Deger, A.B.; Frimmel, F.H.; Gremm, T.J.; Mendez, L.<br />
1990 Phthalates Application of membrane techniques to water 65µm CW/DVB GC-FID<br />
in water purification. Removal of phthalates<br />
Desalination, 162, #1-3, 121-128<br />
Bodzek, M; Dudziak, M; Luks-Betlej, K<br />
1991 PAHs Degradation of PAHs in aqueous solutions by 20°C & 40°C GC-MS<br />
in water ultrasonic irradiation immersed sampling<br />
J. Hazard. Mater., 108, #1-2, 95-102 sonicated<br />
Goula,G; Kalogerakis,N; Mantzavinos,D; Psillakis, E<br />
1992 Vinyl chloride Oxidative microbial transformation of vinyl chloride headspace GC-MS<br />
in water under anaerobic conditions in ground water<br />
Proc. of the Third Int. Conf. on Rem. of Chlorinated<br />
and Recalcitrant 2002, pp1571-1578<br />
Banwart, S; Holliger, C; Morgan, Pl; Shah, N.; Szynalski, K.<br />
1993 Adipate in Determination of adipate in water with Headspace GC-MS<br />
water headspace <strong>SPME</strong> and single ion monitoring GC-MS<br />
Fenxi Shiyanshi, 23, #4, 77-80<br />
Zhang, W. Y.; Wang, C. Y.; Yang, Z. J.<br />
1994 Bisphenol in <strong>SPME</strong> coupled with HPLC w/ fluorimetric detection 50µm CW-TPR HPLC-Fluorimetric<br />
water for the determination of bisphenol A, 4-n-nonylphenol and<br />
4-t-octylphenol in environmental water samples.<br />
Analytical Letters, 37, #4, 739-753<br />
Cai, Y. Q.; Jiang, G. B.*; Liu, J. F.; Liang, X.; Yao, Z. W.;<br />
Liu, J. M.; Liu, J. Y.; Zhou, Q. X.<br />
1995 Volatiles from Electronic nose technology for the detection of microbial headspace @ 25°C GC<br />
Bacteria and chemical contamination of potable water<br />
in water Sens Actuators, B Chem, 106, #1, 3-6<br />
Canhoto, O.; Magan, N.<br />
1996 Herbicides On-fibre silylation following <strong>SPME</strong> for the determination of 85µm polyacrylate GC-MS<br />
in water acidic herbicides in water samples by GC MTBSTFA derivative<br />
Anal. Chim. Acta, 537, #1-2, 259-266 stirred<br />
Cela, R.; Gonzalez, R.; Quintana, J.; Rodriguez, I.; Rubi, E.<br />
1997 Herbicides Analysis of the chloroacetanilide herbicides in water using 75µm Carboxen GC-ECD<br />
in water <strong>SPME</strong> with CAR/PDMS and GC/ECD immersed sampling<br />
J of AOAC Intl, 88, #4, 1236-1241<br />
Hwanc, Ying-Ming; Wong, Yih-Gang; Ho, Wu-Hsiung<br />
Ambient temperature, unless otherwise indicated. 131
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1998 Triclosan in Optimization of <strong>SPME</strong>conditions for the determination of 85µm polyacrylate GC-MS<br />
water triclosan and possible related compounds in water samples MTBSTFA derivative<br />
J Chromatogr A, 1072, #1, 107-115 30min extraction<br />
Canosa, P.; Rodriguez, I.; Rubi, E.; Cela, R. immersed sampling<br />
1999 Anti- Application of strategic sample composition to the screening 85µm polyacrylate GC-MS<br />
inflamatory of anti-inflammatory drugs in water samples using <strong>SPME</strong> silylated esterfication<br />
drugs in Anal. Chim. Acta, 524, #1-2, 63-71 headspace<br />
water Carpinteiro, J.; Carro, A.; Cela, R.; Lorenzo, R.;<br />
Martinez, E.; Quintana, J.; Rodriguez, I.<br />
2000 Estrogens in Applicability of <strong>SPME</strong> followed by on-fiber silylation for the 85µm polyacrylate GC-MS-MS<br />
sewage determination of estrogens in water samples by GC-MS-MS MSTFA derivatives<br />
water J Chromatogr A, 1056, #1-2, 179-185 immersed sampling<br />
Carpinteiro, J.; Carro, A.; Cela, R.; Lorenzo, R.A.;<br />
Quintana, J.; Rodriguez, I.<br />
2001 Chloro-brom- Determination of odorous mixed chloro-bromoanisoles in headspace GC-MS<br />
anisole in water by <strong>SPME</strong>-GC-MS 100µm PDMS<br />
water J Chromatogr A, 1064, #1-2, 97-106<br />
Diaz, A.; Ventura, F.; Galceran, M.<br />
2002 Nonylphenol Estimation of measurement uncertainty for the GC-MS<br />
in water determination of nonylphenol in water<br />
using <strong>SPME</strong> and <strong>SPME</strong> procedures.<br />
Analytica Chimica Acta, 506, #1, 71-80<br />
Diaz, A.; Vazquez, L.; Ventura, F.; Galceran, M.<br />
2003 Organotin Validation, using a chemometric approach, of GC- GC-ICP-AES<br />
in water and inductively coupled plasma-atomic emission<br />
sediment spectrometry (GC-ICP-AES) for organotin determination<br />
Anal. Bioanal. Chem., 376, #2, 226-235<br />
Aguerre, S.; Lespes, G.; Pecheyran, C.<br />
2004 Bethrodine Development of a novel <strong>SPME</strong> element for 30µm PDMS GC-MS<br />
herbicide in thermal desorption GC analysis<br />
water J. Chromatogr. A, 1035, #2, 277-279<br />
Hosaka, A.; Ohtani, H.; Tsuge, S.; Wang, L.; Watanabe, C.<br />
2005 Fumigants Application of <strong>SPME</strong> for the determination of soil fumigants soil headspace or GC/ECD/NPD<br />
in soil/water in water and soil samples immersed in water<br />
Journal of Separation Science, 28, #1, 98-103<br />
Fuster, S.; Beltran, J.; Lopez, F. J.; Hernandez, F.<br />
2006 Surfactants Impurity analysis of 1,4-dioxane in nonionic surfactants and headspace GC, GC-MS<br />
in water cosmetics using headspace <strong>SPME</strong> coupled w/GC & GC-MS<br />
J. Chromatogr. A, 1071, #1-2, 141-145<br />
Fuh, C. Bor; Lai, M.; Tsai, H. Y.; Chang, C. M.<br />
2007 Surfactants Rapid screening for trace nonyl-phenyl 14 hour SALDI-MS<br />
in water polyethylene glycol ether in water by <strong>SPME</strong> polycrystaline<br />
combining with laser desorption ionization MS graphite coated fiber<br />
Proc. 50th ASMS Conf. Mass Spectrom. Allied Top.<br />
2002, p597-599<br />
Chen, Yu-Chie; Sun, Mei-Chuan<br />
2008 Methylamine Analysis of methylamine by <strong>SPME</strong> and HPLC after 9-fluorenylmethyl HPLC<br />
in water on-fiber derivatization with 9-fluorenylmethyl chloroformate chloroformate<br />
Anal. Chim. Acta, 513, #2, 425-433 derivative<br />
Campins-Falco, P.; Chafer-Pericas, C.; Herraez-Hernandez, R. immersion sampling<br />
2009 Methylamine A new selective method for dimethylamine in water analysis 50µm CW-TPR HPLC<br />
in water by LC using <strong>SPME</strong> and two-stage derivatization with 9-fluorenylmethyl<br />
o-phthalaldialdehyde and 9-fluorenylmethyl chloroformate chloroformate<br />
Talanta, 66, #5, 1139-1145 derivative<br />
Chafer-Pericas, C; Herraez-Hernandez, R.; Campins-Falco, P immersion sampling<br />
Ambient temperature, unless otherwise indicated. 132
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2010 Bisphenol A Determining leaching of bisphenol A from plastic 85µm polyacrylate GC-MS<br />
from water containers by <strong>SPME</strong>-GC-MS 50min @ 65°C<br />
Anal. Chim. Acta, 539, #1-2, 41-47 BSTFA derivative<br />
Chang, Chia-Min; Chou, Chi-Chi; Lee, Maw-Rong headspace<br />
2011 Bisphenol A Determination of trace bisphenol-A in leachate by HPLC-UV<br />
from water <strong>SPME</strong> coupled with HPLC<br />
Fenxi Kexue Xuebao, 20, #5, 461-464<br />
Deng, L.; Zhang, W. H.; Feng, X. H.; Deng, N. S.*<br />
2012 THM & TBE Measurement of trihalomethanes and methyl headspace GC-MS<br />
in tap water tertiary-butyl ether in tap water using <strong>SPME</strong>-GC-MS.<br />
J Chrom Sci, 42, #4, 200-206<br />
Cardinali, F.; Ashley, D.; Morrow, J.; Moll, D.; Blount, B.<br />
2013 Ethanol in Methods for sampling and analysis of tropospheric headspace from GC-FID<br />
air & water ethanol in gaseous and aqueous phases. cryocooled sample<br />
Chemosphere, 52, #8, 1307-1319<br />
Monod, A.; Bonnefoy, N.; Kaluzny, P.; Denis, I.;<br />
Foster, P.; Carlier, P.<br />
2014 Aniline Determination of aniline in water by microwave- 65µm PDMS-DVB GC-FID<br />
in water assisted headspace <strong>SPME</strong>-gas chromatography. headspace<br />
Chromatographia, 59, #7-8, 517-520 pH12, salt added<br />
Yan, C. T.; Jen, J. F.*<br />
2015 PAHs Coupling of a modified in-tube spme technique w/ PDMS capillary tube HPLC<br />
in water HPLC-fluorescence detection for the ultra-trace<br />
determination of PAHs in water samples.<br />
Chromatographia, 59, #7-8, 501-505<br />
Bagheri, H.; Salemi, A.<br />
2016 Aromatic <strong>SPME</strong> for qualitative and quantitative determination of headspace GC<br />
compounds migrated degradation products of antioxidants in an<br />
in 10% alcohol organic aqueous solution<br />
water mixture J. Chromatogr. A, 1080, #-2, 107-116<br />
Albertsson, Ann-Christine; Burman, L.; Hoglund, A.<br />
2017 Anatoxin Analysis of anatoxin-a using polyaniline as a sorbent in <strong>SPME</strong> 32µm polypyrrole film GC-MS<br />
in water coupled to GC-MS 10% salt<br />
J. Chromatogr. A, 1078, #1--2, 120-127 30min w/agitation<br />
Davarani, H.; Fallahi, M.; Ghassempour, A.;<br />
Mehdinia, A.; Najafi, N.; Nakhshab, M.<br />
2018 agrochemicals <strong>SPME</strong>-HPLCdetermination of Nabam, Thiram, and PDMS fiber HPLC-UV<br />
in water Azamethiphos in water samples with UV detection: headspace<br />
preliminary data<br />
Talanta, 66, #1, 266-270<br />
Aulakh, Jatinder Singh; Malik, A. K.; Mahajan, R. K.<br />
2019 Orgaonotin Headspace single-drop microextration for the headspace GC<br />
in water detection of organotin compounds<br />
Talanta, 63, #3, 555-560<br />
Bancon-Montigny, C; Colombini, V; Maxwell, P;<br />
Mester, Z; Sturgeon, R: Yang, Lu<br />
2020 Orgaonotin Determination of organotin compounds in water by headspace NaEt 4B derivatives GC-MS<br />
in water <strong>SPME</strong>with GC-MS 30min @ 45°C, pH 5<br />
J. Chromatogr. A, 1064 #1, 1-8 headspace<br />
Chou, Chi-Chi; Lee, Maw-Rong<br />
2021 Organotin Automated headspace-<strong>SPME</strong>-retention time locked- NaEt 4B derivatives GC-MS<br />
in water/ isotope dilution GC-MS for the analysis of organotin headspace<br />
sediment compounds in water and sediment samples<br />
J. Chromatogr. A, 1079, #1-2, 408-414<br />
David, F; Devos, C; Moens, L; Sandra, P.;<br />
Vliegen, M; Willaert, B<br />
Ambient temperature, unless otherwise indicated. 133
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2022 Phthalate Monitoring the sonochemical degradation of immersion sampling GC<br />
esters in phthalate esters in water using <strong>SPME</strong> 21°C & 50°C<br />
water Chemosphere, 54, #7, 849-857 NaCl addition<br />
Psillakis, E.; Mantzavinos, D.; Kalogerakis, N.<br />
2023 Drugs from <strong>SPME</strong>-GC-MS for the analysis of selective serotonin 65µm PDMS-DVB GC-MS<br />
water reuptake inhibitors in environmental water 100°C, direct extract<br />
J. Chromatogr. A, 1045, #1-2, 241-247 in situ acetylation<br />
Cela, R; Garcia-Jares, C; Gomez, Mo; Llompart, M;<br />
Pablo Lamas, J.;Salgado-Petinal, Carmen<br />
2024 Musty odors Analysis of earthy and musty odors in water samples headspace GC-ITMS<br />
in water by<strong>SPME</strong> coupled with GC-ion trap MS<br />
Talanta, 65, #2, 518-524<br />
Huang, Shang-Da; Li, Tzu-Ying; Sung, Yu-Hsiang<br />
2025 Triazine Optimization of a <strong>SPME</strong> procedure for the 65µm PDMS-DVB <strong>SPME</strong>-MEKC<br />
herbicides in detemination of herbicides by micellar electrokinetic 120 min<br />
ground water chromatography. 10% NaCl, stirring<br />
J Separation Sci, 27, #9, 660-666<br />
Frias-Garcia, S.; Sanchez, M..; Rodriguez-Delgado, M<br />
2026 Triazine Analysis of triazine in water samples by <strong>SPME</strong>-HPLC 50µm CW-TPR HPLC<br />
herbicides in Talanta, 64, #4, 887-893 100µm PDMS<br />
water Huang, Hsin-I; Huang, Shang-Da; Sung, Yu-Hsiang<br />
2027 Volatiles in A laboratory batch reactor test for assessing nonspeciated headspace GC<br />
wastewater volatile organic compound biodegradation in activated sludge<br />
Water Environ. Res., 75, #4, 342-354<br />
Allen, C.; Cano, M.; Huot, M.; Rhodes, I.; Saterbak, A;<br />
Van Compernolle,Remi; Williams, M.<br />
2028 Organics Determination of organic contaminants in LC-MS<br />
in seawater coastal water<br />
Trends in Anal Chemistry, 23, #4, 341-350<br />
Gimeno, R. A.; Marce, R. M.*; Borrull, F.<br />
2029 Musk Study of the photoinduced degradation of polycyclic PDMS fiber GC-MS<br />
compounds musk compounds by <strong>SPME</strong> and GC-MS headspace<br />
in water Rapid Comm in Mass Spec, 18, #111, 1186-1192<br />
Sanchez-Prado, L; Llompart,M; Lores,M;<br />
Garcia-Jares,C; Cela, R<br />
2030 PBDEs in Investigation of photodegradation products generated PDMS fiber GC-MS<br />
water after UV-irradiation of five polybrominated diphenyl<br />
ethers using photo <strong>SPME</strong><br />
Journal of Chromatography A, 1071, #1-2, 85-92<br />
Sanchez-Prado, L.; Llompart,M.; Lores,M.;<br />
Garcia-Jares,C.; Cela, R.<br />
2031 Organics in Determination of organic contaminants in coastal water GC<br />
water TrAC Trends Anal. Chem., 23, #4, 341-350<br />
Borrull, F.; Gimeno, R.A.; Marce, R.M.<br />
2032 Acaricide Determination of the acaricide fenbutatin oxide in water headspace GC-MS<br />
fenbutatin samples by automated headspace-<strong>SPME</strong>-GC/MS NaEt 4B derivatives<br />
oxide in water J. Sep. Sci., 26, #7, 665-668 30min @ 80°C<br />
Devos, Christophe; Moens, Luc; Sandra, Pat<br />
2033 Alkylbezene- Linear alkylbenzensulphonic acids (LAS) oxidation by headspace GC-MS<br />
sulphonic acid H2O2 and O2: An investigation by GC & LC coupled w/MS<br />
in water Appl. Catal. B Environ.59, #1-2, 113-120<br />
Cuzzola, Angela; Raffaelli, Andrea; Salvadori, Piero<br />
2034 Dioxin, hexa- <strong>SPME</strong> for the evaluation of partition coefficients of a immersed GC-ECD<br />
chlorobenzene chlorinated dioxin and hexachlorobenzene into<br />
in water humic substances<br />
Analytical Sciences, 20, #5, 787-791<br />
Yabuta, H.; Fukushima, M. *; Tanaka, F.;<br />
Ichikawa, H.; Tatsumi, K.<br />
Ambient temperature, unless otherwise indicated. 134
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2035 Dioxin, hexa- Influence of chemical characteristics of humic substances on headspace GC-ECD<br />
chlorobenzene the partition coefficient of a chlorinated dioxin<br />
in water Chemosphere, 58,#10, 1319-1326<br />
Fukushima, Masami; Ichikawa, Hiroyasu; Kikuchi, Atsunori<br />
Tanaka, Fumiko; Tatsumi, Kenji; Yabuta, Hikaru<br />
2036 Molinate A case study of molinate application in a Portuguese immersed sampling GC-FPD<br />
herbicides rice field: Herbicide dissipation and proposal of a<br />
in water clean-up methodology<br />
Chemosphere, 59, #7, 1059-1065<br />
Castro, M; Manaia, C.; Nunes, O.; Silva-Ferreira, A.<br />
2037 Organics in Determination of organic contaminants in coastal water LC-MS<br />
seawater Trends in Analytical Chemistry, 23, #4, 341-350<br />
Gimeno, R. A.; Marce, R. M.; Borrull, F.<br />
2038 Organometals Simultaneous multi-elemental speciation analysis 65µm PDMS-DVB ICP-TOF-MS<br />
in water of organometallic compounds by <strong>SPME</strong> and multi- 75µm Carboxen<br />
capillary GC hyphenated to ICP-time-of-flight-MS headspace<br />
J Anal At Spectrom, 19, #7, 867-875 NaEt 4B derivatives<br />
Adams, Freddy C.; Infante, Heidi G; Jitaru, Petru<br />
2039 Mercury Speciation analysis of mercury by <strong>SPME</strong> and multi- 75µm Carboxen GC-ICP-MS<br />
in water capillary GC- inductively coupled plasma-TOF-MS headspace<br />
J. Chromatogr. A,1055, #1-2, 197-207 NaEt 4B derivatives<br />
Adams, Freddy C.; Jitaru, Petru<br />
2040 Iodophenols Fast speciation analysis of iodophenol compounds immersion sampling ICP-MS<br />
in river water in river waters by capillary electrophoresis-<br />
ICP-MS with off-line <strong>SPME</strong><br />
Electrophoresis, 25, #12, 1843-1851<br />
Kannamikumarath, Sasi S.; Wuilloud, Rodolfo G.;<br />
Jayasinghe, Sarath; Caruso, Joseph A.<br />
2041 Organic Optimization of <strong>SPME</strong> for the GC-MS analysis of varios fibers GC/MS<br />
pollutants persistent organic pollutants<br />
from water J AOAC Int, 87, #4, 1021-1027<br />
Alpendurada, M.; Gago-MARTINEZ, A; Nogueiras, M,<br />
Prado, Juan; Rellan, Satvdra;Vetter, Walter<br />
2042 Amines, fatty Use of headspace <strong>SPME</strong> to characterize odour headspace GC/MS or GC/NPD<br />
acids, alky- compounds in subsurface flow constructed wetland<br />
sulfides in for wastewater treatment<br />
wastewater Water Sci. Technol., 49, #9, 89-98<br />
Aguirre, P.; Bayona, J.M.; Garcia, J.; Huang, Y.;<br />
Mujeriego, R.; Ortiz, L.<br />
2043 Odourous Development of a simple and sensitive method for the 75µm Carboxen GC/MS or GC/FID/O<br />
compounds characterization of odorous waste gasemissions by headspace<br />
from waste means of <strong>SPME</strong>-GC-MS/olfactometry<br />
gas Waste Manage., 25, #9, 872-879<br />
Jans, M.; Kleeberg, K.K.; Liu, Y.; Schlegelmilch, M.;<br />
Stegmann, R.; Streese, J.<br />
2044 PAHs in Comparison of strategies for extraction of high immersion sampling HPLC-FLD<br />
drinking water molecular weight PAHs from drinking waters<br />
J Agr Food Chem, 52, #23, 6897-6903<br />
Garcia-Falcon, M. S.; Perez-Lamela, M.;<br />
Simal-Gandara, J.<br />
2045 PAHs in Determination of PAHs in water by <strong>SPME</strong>-HPLC 35min immersed extract HPLC-FLD<br />
water Analytical Sciences, 20, #10, 1383-1388 added 1.5M sodium<br />
Chen, H. W. monochloroacetate<br />
2046 organochlorides Determination of organochlorides in water using 65µm PDMS-DVB GC<br />
in water solid-phase microextraction coupled to GC 45sec @ 50°C<br />
Am Lab, 34. #17, 12-14<br />
Huang, Min-Jia; Li, Ju-Bai; Liang, Bing; Ou, Qing-Yu<br />
Ambient temperature, unless otherwise indicated. 135
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2047 PAHs in <strong>SPME</strong> measurement of parent and alkyl PAHs in immersion sampling GC/ MS<br />
water milliliter sediment pore water samples and<br />
determination of K' values<br />
Environ. Sci. Technol,.39, #8,2795-2803<br />
Grabanski, C.; Hawthorne, S.; Kreitinger, J..; Miller, D.<br />
2048 Organics in Coupling of <strong>SPME</strong> with MCC/UV-IMS as a tool for rapid on-site headspace UV-IMS<br />
groundwater detection of groundwater and surface water contamination<br />
Anal. Bioanal. Chem., 382, #8, 1842-1847<br />
Baumbach, J.I.; Klockow, D.; Walendzik, G.<br />
2049 2,4,6-Trichloro- Detection of 2,4,6-trichloroanisole in chlorinated water at 100µm PDMS GC-ECD<br />
anisole in nanogram per litre levels by <strong>SPME</strong>-GC-ECD headspace<br />
chlorinated Anal. Bioanal. Chem., 382, #2, 341-346<br />
water Da Silva, Joaquim C. G. Esteves; Pinheiro, Paula B. M.<br />
2050 Clenbuterol <strong>SPME</strong> and headspace derivatization of clenbuterol followed 85µm polyacrylate GC-FID, GC-MS<br />
in water by GC-FID and GC-SIMMS quantification HMDS derivative<br />
Anal. Bioanal. Chem., 375, #3, 460-464 headspace<br />
Engelmann, M.D.; Hinz, D.; Wenclawiak, B.W.<br />
2051 Explosives Use of <strong>SPME</strong>-GC-ECD for the determination of energetic 65µm CW/DVB GC-ECD<br />
in water chemicals, in marine samples 30% salt added<br />
J Chromatogr A, 1066, #1-2, 177-187<br />
Monteil-Rivera, Fanny; Beaulieu, Chantale; Hawari, J.<br />
2051 Explosives <strong>SPME</strong> ion mobility spectrometer interface for explosive headspace Ion mobility<br />
in water and taggant detection spectrometry<br />
J Sep Science, 28, #2, 177-183<br />
Perr, Jeannette M.; Furton, Kenneth G.; Almirall, J.<br />
2052 Explosives Determination of explosives in environmental water samples 50µm CW-TPR HPLC-UV<br />
in water by <strong>SPME</strong>-liquid chromatography immersed<br />
J. Chromatogr. A, 1048, #2, 213-221<br />
Beaulieu,C.; Deschamps,S.; Hawari,J.;<br />
Monteil-Rivera,F.; Paquet,L.<br />
2053 Anthracen In-tube capillary solid-phase microextraction coupled In-tube capillary HPLC<br />
in water on-line to micro-HPL<br />
Fenxi Shiyanshi, 24, #2, 41-43<br />
Shu, X.; Yang, B. C.; Tan, F.; Guan, Y. F.<br />
2054 Volatiles Further <strong>SPME</strong>-GC-MS applications: "On-fibre" and immersion sampling GC-MS<br />
from musks and aqueous photodegradation of nitro musks<br />
J. Chromatogr. A, 1048. #1, 73-80<br />
Cela, R.; Garcia-Jares, C.; Llompart, M.; Lores, M.;<br />
Lourido, M.; Sanchez-Prado, L.<br />
2055 2,4,6-trinitro- <strong>SPME</strong> for predicting the bioavailability of 85µm polyacrylate GC-MS<br />
toluene in 2,4,6-trinitrotoluene and its primary transformation<br />
water & products in sediment and water<br />
sediment Environ. Toxicol. Chem., 24, #5, 1059-1066<br />
Conder, Jason M.; La Point, Thomas W.<br />
2056 Aromatics Rapid analysis of aromatic contaminants in water samples GC-MS<br />
in water by means of laser ionization mass spectrometry<br />
Anal. Bioanal. Chem, 377, #7-8, 1124-1132<br />
Globig, Daniel; Weickhardt, Christian<br />
2057 phycoerythrin Coupling of <strong>SPME</strong> and capillary isoelectric focusing 10 min sampling CIEF-WCID<br />
in water w/ laser-induced fluorescence whole column imaging<br />
detection for protein analysis.<br />
Analytical Chemistry, 77, #1, 165-171<br />
Liu, Z.; Pawliszyn, J. *<br />
2058 Nitroaromatics Spme fibers for estimating the toxicity of nitroaromatic 85µm polyacrylate GC<br />
in sediment, compounds immersion sampling<br />
water Aquatic Ecosystem Health & Mgmt, 7, #3, 387-397<br />
Conder, J. M.; Lotufo, G. R.; Bowen, A. T.; Turner, P. K.;<br />
La Point, T. W.; Steevens, J. A.<br />
Ambient temperature, unless otherwise indicated. 136
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2059 Perfluoro- Determination of perfluorocarboxylic acids in aqueous headspace CI-MS<br />
carboxylic matrices by ion-pair <strong>SPME</strong> in-port derivatization GC butyl ester derivative<br />
acod in negative ion chemical ionization mass spectrometry<br />
water J Chromatogr, A, 1042, #1-2, 155-162<br />
Alzaga, R.; Bayona, J. M.*<br />
2060 perfluoro- Development of a procedure for the determination of headspace CI-MS<br />
carboxylic perfluorocarboxylic acids in sediments by pressurised<br />
acod in fluid extraction, headspace <strong>SPME</strong> followed by GCMS<br />
water Journal of Chromatography, A, 1083, #1-2, 1-6<br />
Alzaga, R.; Bayona, J.M.; Jover, E.; Salgado-Petinal, C.<br />
2061 Dialkyl ethers Determination of fuel dialkyl ethers and BTEX in water 65µm PDMS-DVB GC-FID<br />
in water using headspace <strong>SPME</strong> and GC-FID headspace<br />
J Chromatogra A, 1033, #2, 193-203 10min @ 10°C<br />
Arambarri, I.; Lasa, M.; Garcia, Rosa; Millan, E.<br />
2062 MTBE Identification of MTBE in water by <strong>SPME</strong> and GC-MS headspace GC/MS<br />
in water Am Lab, 34, #21, 34<br />
Blasi, G.; Guidotti, M.; Lucarelli, E.; Onorati, B.;<br />
Ravaioli, G.; Stella, D.<br />
2063 Taste/odor Analysis of taste- and odor-causing compounds review technique GC<br />
in water in drinking water using solid-phase microextraction<br />
Am Lab, 35, #17, 42-46<br />
Voit, Jim<br />
2064 MTBE Interlaboratory comparison study for the determination various fibers GC/MS<br />
in water of methyl tert-butyl ether in water GC-FID<br />
Anal. Bioanal. Chem., 377, #7-8, 1140-1147<br />
Fuhrer, M.; Kandler, W.; Krska, R.;<br />
Schuhmacher, R.; Stadlmann, C.<br />
2065 MTBE, TBA Comparison of <strong>SPME</strong> headspace analysis to U.S. 75µm Carboxen GC-MS<br />
in water EPA Method 5030/8260B for MTBE monitoring headspace<br />
Ground Water Monit. Rem., 25, #2, 52-58<br />
Oh, Keun-Chan; Stringfellow, William T.<br />
2066 MTBE Observations on <strong>SPME</strong> for MTBE analysis headspace GC-MS<br />
in water Chemosphere, 57, #6, 523-527<br />
Bergendahl, J.; Erdem-Senatalar, Ayse; Thompson, Robert W.<br />
2067 MTBE Sources, distribution and behaviour of methyl tert-butyl 75µm Carboxen GC-MS<br />
in water ether (MTBE) in the Tamar Estuary, UK 75% salt added<br />
Chemosphere, 57, #6, 429-437 headspace<br />
Bayona, Josep M.; Guitart, Carlos; Readman, James W.<br />
2068 Chromium in Spme for the determination of chromium in sea-water. 100µm PDMS GC-ECD<br />
sea water J of Anal Atomic Spectrometry, 19, #9, 1098-1103 headspace derivatives ICP-MS, EI-MS<br />
Abranko, L.; Yang, L.; Sturgeon, R. L.; Fodor, P.; Mester, Z. (trifluoroacetylacetone)<br />
2069 Saccharides Micro-solid-phase extraction with helical-solid-sorbent in headspace GC-MS<br />
from water & the presence of organic solvent for GC-MS analysis of - per- O -methylation<br />
juices per-O-methylated mono and disaccharides.<br />
Analytica Chimica Acta, 519, #1, 93-101<br />
Ciucanu, I.; Swallow, K. C.; Caprita, R.<br />
2070 Volatiles in Analysis of compound-specific carbon isotopic compositions cryofocused injection GC<br />
water of trace-level volatile organic compounds in aqueous phases. headspace sampling<br />
Sepu, 22, #4, 439-441<br />
Liu, G. Q.; Zhang, G.; Huang, S. Q.; Peng, X. Z.; Chen, H. H.<br />
2071 Volatiles in On-line coupling of in-tube <strong>SPME</strong> to capillary GC GC<br />
water for trace analysis of aqueous samples.<br />
Sepu, 22, #4, 354-357<br />
Guan, Y. F.; Wang, H. W.; Liu, W. M.<br />
Ambient temperature, unless otherwise indicated. 137
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2071 Chlorinated SPE versus <strong>SPME</strong> for the determination of chlorinated immersed fiber GC-NCI-MS<br />
parafins in paraffins in water using GC-negative chemical ion MS<br />
water J Chromatography, A, 1025, #2, 157-162<br />
Castells, P.; Santos, F. J.; Galceran, M. T.*<br />
2073 Chlorinated Development of a <strong>SPME</strong>-based method for sampling 100µm PDMS GC<br />
hydrocarbons of persistent chlorinated hydrocarbons in an in situ sampling<br />
in water urbanized coastal environment 18 to 43 days<br />
Environ. Sci. Technol., 38, #21, 5737-5743<br />
Diehl, Dario W.; Tsukada, David; Zeng, Eddy Y.<br />
2074 Odors from An automated headspace <strong>SPME</strong>-GC-ITMS technique for 65µm PDMS-DVB GC-ITMS<br />
water taste and odor compound identification headspace<br />
Water Qual. Res. J. Can., 39, #3, 213-222<br />
Davies, John-Mark; Furtula, Vesna; Mazumder, Asit<br />
2075 PAHs in Determination of PAHs in water by <strong>SPME</strong>-GC-MS agitation applied GC-MS<br />
water Anal. Chim. Acta, 523, #2, 259-267 immersed<br />
King, A.J.; Readman, J.W.; Zhou, J.L.<br />
2076 Phenols Determination of phenolic compounds in wastewater 85µm polyacrylate GC-FID<br />
in waste samples using a novel fiber by <strong>SPME</strong> coupled to GC<br />
water Analytica Chimica Acta, 538, #1-2, 63-70<br />
Zhou, Furong; Li, Xiujuan; Zeng, Zhaorui<br />
2077 Selenite <strong>SPME</strong> - capillary GC combined w/ microwave-Inducted NaEt 4B derivatives GC-MIP-AED<br />
in water plasma atomic-emission spectrometry for selenite headspace<br />
determination<br />
Anal& Bioanalytical Chem, 379, #5, 842-848<br />
Dimitrakakis, E.; Haberhauer-Troyer, C. *; Abe, Y.;<br />
Ochsenkuhn-Petropoulou, M. T.; Rosenberg, E.<br />
Pesticides<br />
441 Pesticides Determination of Pesticides in Aqueous Environmental<br />
in water Samples via <strong>SPME</strong> (Solid-Phase Microextraction)<br />
GIT Frachz. Lab. 39: 25-26 (1995)<br />
Eisert, R., Levsen, K.<br />
522 Pesticides Quantitative analysis of pesticides in water by <strong>SPME</strong> 100µm PDMS, 65µm GC-MS<br />
in water coupled with Mass Spectrometry DVB/PDMS<br />
Spectra. Anal. 1999, 28(208), 23-29 30 min<br />
Massat, F. Laurent, A. agitated<br />
523 Organochlorine & A Systematic Approach to Optimize <strong>SPME</strong> determination<br />
organophosphorus of Pesticides in Ethanol/Water mixtures<br />
in water/ethanol used as Food Simulates<br />
Anal. Chem. (1999), 71(13), 2417-2422<br />
Batlle, R, Sanchez, C., Nerin, C.<br />
442 Solid-Phase Microextraction (<strong>SPME</strong>)<br />
GIT Frachz. Lab. 39: 325-331 (1995)<br />
Popp, P., Kauert, A., Kalbitz, K.<br />
781 Organophosphorus Determination of organophosphorus insecticides in natural 85µm polyacrylate GC-FTD and<br />
pesticides waters using SPE-disks and <strong>SPME</strong> followed by GC-MS<br />
in water GC-FTD and GC-MS<br />
Fresenius' J Anal Chem (2000) 368(6) 616-623<br />
Lambropoulou, D.; Sakellarides, T.; Albanis, T.<br />
915 Organophosphorus Optimization of headspace <strong>SPME</strong> conditions for the<br />
pesticides determination of organophorus insecticides in natural water<br />
in water J. Chromatogr. A (2001) 922(1-2) 243-255<br />
Lambropoulou, D.; Albanis, T.<br />
Ambient temperature, unless otherwise indicated. 138
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
123 Organophosphorus Pesticide Analysis by <strong>SPME</strong> 100µm PDMS GC-FID<br />
pesticides Am. Env. Lab. April 1997, pp 20-22 60 min<br />
in water Eisert, R., Gorecki, T., Pawliszyn, J. immersion<br />
104 Insecticides, Influence of Ethanol on Pesticide Extraction in 100µm PDMS GC-MS<br />
fungicides Aqueous Solutions by <strong>SPME</strong> 30 min<br />
in water J. Agric. Food Chem. 44: 3871-3877 (1996)<br />
Urruty, L., Montury, M.<br />
headspace<br />
122 Pesticides Simultaneous Determination of 60 Pesticides in Water 100µm PDMS GC-MS<br />
in water Using <strong>SPME</strong> and GC/MS 50 min<br />
Analyst 121: 929-938, July 1996 immersion<br />
Boyd-Boland, A., Magdic, S., Pawliszyn, J. stirring, salt added<br />
241 Nitrogen- & phosphate- Solid-Phase Microextraction of Nitrogen- and Phosphorus- 100µm PDMS GC-NPD<br />
pesticides Containing Pesticides from Water and GC Analysis 60 min<br />
in water Environ. Sci. Technol. 30: 3259-3265 (1996) immersion<br />
Choudhury, T., Gerhardt, K., Mawhinney, T. stirring, salt added<br />
52 Pesticides Determination of Organophosphorus, Triazine, and 100µm PDMS, GC-NPD<br />
in water 2,6-Dinitroanailine Pesticides in Aqueous Samples via 85µm polyacrylate<br />
<strong>SPME</strong> and GC with NPD Detection 25 min<br />
Fresenius J. Anal. Chem. 351: 555-562 (1995) immersion<br />
Eisert, R., Levsen, K. stirring, salt added<br />
443 Organophosphate Simple Extraction of Organophosphate Pesticides Using GC-NPD, -MS<br />
pesticides (<strong>SPME</strong>) Before Capillary Gas Chromatography<br />
in water Hochudoku 13 (2): 122-123 (1995)<br />
Lee, X., Kumazawa, T., Taguchi, T., Sato, K., Suzuki, O.<br />
167 Organophosphorus Analysis of Organophosphorus Insecticides from 85µm polyacrylate GC-NPD<br />
insecticides Environmental Samples Using <strong>SPME</strong> 60°C, 60 min<br />
in water J. Chromatogr. A 736: 219-228 (1996) immersion<br />
Magdic, S., Boyd-Boland, A., Jinno, K., Pawliszyn, J. salt added<br />
861 Organophosphorus Solventless sample preparation procedure for HPLC<br />
pesticides organophosphorus pesticides analysis using <strong>SPME</strong> and<br />
in water on-line supercritical fluid extraction/HPLC technique.<br />
Analytica Chimica Acta (2001) 433(2) 207-215<br />
Jinno, K; Kiso, Yoshiaki; S, Yoshihiro; S, Shamsul H<br />
93 Organophosphorus Matrix Effects on <strong>SPME</strong> of Organophosphorus 85µm polyacrylate GC-NPD<br />
pesticides Pesticides from Water 60°C, 45 min<br />
in water J. Chromatogr. A 767: 195-203 (1997) immersion<br />
Valor, I., Molto, J., Apraiz, D., Font, G. stirring<br />
839 52 Pesticides, PCBs <strong>SPME</strong> of 52 pesticides and polychlorinated biphenyls:<br />
efficiencies of the <strong>SPME</strong> coatings PDMS, polyacrylate,<br />
PDMS/DVB, Carboxen/PDMS, and Carbowax/DVB<br />
J. Sep. Sci. 2001) 24(1), 39-48<br />
Valor, I; Perez, M; Cortada, C; Apraiz, D; Molto, J; Font, G<br />
65µm PDMS/DVB<br />
118 Organophosphorus Solid Phase Microextraction of Organophosphorus 65µm PDMS/DVB<br />
pesticides Pesticides from Water 30 min<br />
in water J. Chromatogr. A 759: 225-230 (1997)<br />
Sng, M., Lee, F., Lakso, H.<br />
immersion<br />
524 Organophosphorus Determination of organophosphorus pesticides in water 100µm PDMS GC-MS<br />
pesticides using GC-MS<br />
in water Qim. Nova (1999), 22(2), 197-200<br />
Silva, F., Cardeal, Z., De Carvalho, C.<br />
Portuguese<br />
Ambient temperature, unless otherwise indicated. 139
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
350 Organophosphorus The Application of <strong>SPME</strong> in the Analysis of 100µm PDMS GC-FPD<br />
pesticides Organophosphorus Pesticides in a Food Plant 90 min<br />
in food plant Environ Sci. Technol. 1998, 32, 3816-820<br />
Chen, W., Poon, K., Lam, M.<br />
immersion (water)<br />
525 Pyrethrins in Heterogenic catalytic hydrolysis and analysis of natural 100µm PDMS GC-FID or<br />
insect spray, pyrethrins in subcritcal water coupled w/<strong>SPME</strong>-GC-MS 20 min @ pH 2 MSD<br />
shampoo, flowers Fresenius'J. Anal. Chem. 1999, 364(7), 625-630<br />
Krappe, M, Hawthorne, S., Weclawiak, B.<br />
immersed<br />
705 Pyrethroids <strong>SPME</strong> of pyrethroid pesticides from water at low and 100µm PDMS GC-ECD<br />
in water sub-ppt levels at different temperature 5 min<br />
J.High Resolut.Chromatogr. (2000), 23(7/8), 485-488<br />
Barrionuevo, W., Lancas, F.<br />
40-90°C<br />
837 Pyrethroids Solid-phase extraction (SPE) and solid-phase microextraction<br />
in water ( <strong>SPME</strong> ) of pyrethroids in water<br />
Quim. Nova (2001), 24(2), 172-175<br />
Barrionuevo, W., Lancas, F.<br />
299 Organophosphorus Online Determination of Organophosphorus Pesticides in 30µm PDMS GC-TCD<br />
pesticides Water by <strong>SPME</strong> and GC with Thermionic-Selective Detection 30 min<br />
in water J. High Resolut. Chromatogr. 20 (9): 487-492(1997 immersion<br />
Lopez-Avial, V., Young, R., Becker, W. stirring<br />
390 Organophosphorus <strong>SPME</strong> for quantitative analysis of organophosphorus 100µm PDMS, GC-NPD<br />
pesticides Pesticides in Environmental Water Samples 85µm polyacrylate<br />
in water J. Chromatogr. A 808 (1998) 257-263 30 min<br />
Beltran, J., Lopez, F., Hernandez, F. stirring, salt added<br />
706 Pesticides <strong>SPME</strong> for the determination of systemic and non-volatile 100µm PDMS GC-NPD<br />
in water pesticides in river water using GC with NPC and ECD 15min ECD<br />
J. Chromatogr. A 893(2000) 347-358<br />
Sampedro, M.; et al<br />
immersed<br />
868 Herbicides Determination of herbicides in natural waters using (<strong>SPME</strong>) GC-MS<br />
in water and GC coupled with flame thermionic and MS detection<br />
Int. J. Environ. Anal. Chem (2000) 78(3-4), 223-240<br />
Lambropoulou, D.; Konstantinou, I; Albanis, T.<br />
707 Nitrogen herbicides Use of <strong>SPME</strong> for the Quantitative determination of Carbowax DVB GC-MS<br />
in water Herbicides in soil and water samples 30 min SIM mode<br />
Anal. Chem. 2000, 72, 2313-2322<br />
Hernandez, F., Beltran, J., Lopez, F, Gaspar, J.<br />
salt added, stirred<br />
28 Nitrogen herbicides Solid Phase Microextraction of Nitrogen-Containing 85µm polyacrylate GC-NPD<br />
in water Herbicides 50 min<br />
J Chromatogr. 704: 163-172 (1995) immersion<br />
Boyd-Boland, A., Pawliszyn, J. pH 2, salt added<br />
53 Triazine herbicides Automated Determination of S-Triazine Herbicides 100µm PDMS GC-NPD<br />
in water Using Solid-Phase Microextraction 15 min (manual)<br />
J. Chromatogr. 705: 305-312 (1995) 3 min (automated)<br />
Barnabas, I., Dean, J., Fowlis, I., Owen, S. immersion<br />
177 Triazine herbicides Determination of Triazine Herbicides in Environmental Samples 100µm PDMS GC-NPD<br />
J. Chromatogr. 733: 295-335 (1996) (review) 10 min<br />
Dean, J., Wade, G., Barnabas, I. immersion (water)<br />
Ambient temperature, unless otherwise indicated. 140
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
111 Triazine herbicides Validation of <strong>SPME</strong> for the Analysis of Triazine Herbicides Carbowax/DVB GC-NPD,<br />
in water at ppt Level in Aqueous Samples 30 min GC-MS<br />
J. Chromatogr. A. 795 (1998) 371-376 immersion, stirring<br />
Nilsson, T., Ferrari, R., Basta, R., Dellavedova, P. salt added<br />
708 Urea herbicides Indirect analysis of urea herbicides from environmental 85µm polyacrylate GC-NPD<br />
in water water using solid phase microextraction immersed<br />
J. Chromatogr. A. 890 (2000) 303-312<br />
Berrada, H., Font,G., Molto, J.<br />
sat. salt, pH 4<br />
231 Pesticides Minimization of Solvent Consumption in Pesticide overview<br />
Residue Analysis<br />
J. Chromatogr. A 754: 43-47 (1996)<br />
Wan, H., Wong, M.<br />
article<br />
838 Chlorinated Determination of chlorine-containing pesticides in aqueous<br />
pesticides media by solid-phase microextraction method<br />
in water Zh. Prikl. Khim (2000) 73(11), 1877-1882<br />
Stolyarov, B. V.; Boiko, V. V<br />
156 Organochlorine Online Determination of Organochlorine Pesticides in Water 100µm PDMS GC-ECD<br />
pesticides by <strong>SPME</strong> and GC-ECD 20 min<br />
in water J. High Res. Chromatogr. 19(5): 24756 (1996) immersion<br />
Young, R., Lopez-Avila, V., Beckert, W. stirring<br />
180 Chlorinated pesticides Optimization of a Technique of <strong>SPME</strong> and Capillary GC with GC-ECD<br />
in water ECD for the Determination of Nine Organochlorine Pesticides<br />
in Drinking Water<br />
Analusis 25 (3): 51-54 (1997)<br />
Almeida, M., Conceicao, P., Alpendurada, M.<br />
709 Chlorinated Application of <strong>SPME</strong> and GC with ECD for the 100µm PDMS GC-ECD<br />
pesticides analysis of chlorinated pesticides in water 20min.<br />
in water Spectra Anal (2000) 29(213)<br />
Boussahel, R., Bouland, S., Montiel, A., Moussaoui, K<br />
864 Organochlorine Comparison of three analytical procedures for determination GC-ECD<br />
pesticides of organochlorine pesticides and their by-products in water GC-MS<br />
in water suspension during photocatalytic oxidation<br />
Chemia Analityczna (Warsaw) (2000) 45(6) 901-910<br />
Wiergowski, M.; Zaleska, A.; Biziuk, M.; Hupka, J.<br />
710 Organochlorine Monitoring organochlorine pesticides from landfill leachates 100µm PDMS GC-ECD<br />
pesticides by GC-ECD detection after solid phase microextraction 30 min @ 55°C<br />
in water J. Chromatogr. A 891 (2000) 305-311 immersion<br />
Bras, I., Santos, L., Alves, A. stirring<br />
711 Organochlorine <strong>SPME</strong> for organochlorine pesticides residues analysis in 100µm PDMS GC-MS<br />
pesticides Chinese herbal formulations<br />
in herbs J. Chromatogr. A 898 (2000) 245-256<br />
Hwang, B. H.; Lee, M. R<br />
43 Organophosphorus Element-Selective Detection of Pesticides by Gas 100µm PDMS GC-AED<br />
pesticides Chromatography-Atomic Emission Detection and <strong>SPME</strong> 20 min<br />
in water J. Chromatogr. A 683: 175-183 (1994)<br />
Eisert, R., Levsen, K., Wunsch, G.<br />
immersion<br />
526 Organophosphorus Determination of organophosphorus pesticides in water 85µm polyacrylate GC-FPD<br />
in water by <strong>SPME</strong><br />
Talanta (1999), 49(2), 393-402<br />
Su, P., Huang, S.<br />
Ambient temperature, unless otherwise indicated. 141
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
712 Pesticide residue Solid Phase microextraction in pesticides residue analysis review article<br />
various matrices J. Chromatogr. A 885 (2000) 389-404<br />
Beltran, J., Lopez, F., Hernandez, F.<br />
713 Pesticides An approach to solventless sample preparation HPLC<br />
in water procedure for pesticide analysis using <strong>SPME</strong>/supercritical<br />
fluid extraction technique<br />
Analytica Chimical Acta 2000, 418(1), 69-77<br />
Salleh, S., Saito, Y., Jinno, K.<br />
917 Organophosphorus Solventless sample preparation procedure for organo- HPLC<br />
pesticides phosphorus pesticides analysis using <strong>SPME</strong> and on-line<br />
in water supercritical fluid extraction/HPLC technique<br />
Analytica Cheimica Acta 2001, 433(2), 207-215<br />
Salleh, S., Saito, Y., Kiso, Y., Jinno, K.<br />
87 Pesticides Determination of Pesticides in Aqueous Samples by <strong>SPME</strong> GC-MS<br />
in water In-Line Coupled to Gas Chromatography-Mass Spectrometry<br />
Am. Soc. Mass Spectrom. 6: 1119-1130 (1995)<br />
Eisert, R., Levsen, K.<br />
157 Contaminants Development of a Prototype System for Quasi-Continuous 85µm polyacrylate GC-FID<br />
in water Analysis of Organic Contaminants in Surface or Sewage 10 min<br />
Water Based on In-Line Coupling of <strong>SPME</strong> to GC<br />
J. Chromatogr. A 737: 59 (1996)<br />
Eisert, R., Levsen, K., Wuensch, G.<br />
immersion<br />
77 Metolachlor Solid Phase Microextraction of the Herbicide Metolachlor 100µm PDMS GC-ECD<br />
in water in Runoff and Tile Drainage Water Samples 15 min<br />
J. Chromatogr. A 725: 129 (1996) immersion<br />
Webster, G., Gaynor, J., Ng, H., Graham, J., Sama, L. stirring<br />
193 Metolachlor Comparative SPE, <strong>SPME</strong>, and Immunoassay Analysis 100µm PDMS GC-ECD<br />
in water of Metolachlor in Surface Runoff and Tile Drainage 15 min<br />
J. Agric. Food Chem. 44: 2736-2741 (1996) immersion<br />
Graham, K., Ng, H., Tan, C., Gaynor, J., Cancilla, D.,<br />
Webster, G., Drury, C., Welacky, T., Sarna, L.<br />
stirring<br />
112 Polar herbicides Application of <strong>SPME</strong> Coupled with HPLC for Analysis<br />
of Polar Herbicides<br />
Request from Environmental Institute, European Commission<br />
Joint Research Centre, 21020 Ispra (Va) Italy<br />
Nilsson, T.<br />
HPLC<br />
190 Pesticides Analysis of Pesticides in Environmental Water Sample 85µm polyacrylate HPLC-UV<br />
in water by <strong>SPME</strong>-HPLC 60°C, 60 min 220nm<br />
J. Chromatogr. A754: 137-144 (1996) immersion<br />
Jinno, K., Muramats, T., Saito, Y., Kiso, Y., Magdic, S.,<br />
Pawliszyn, J.<br />
salt added<br />
242 Pesticides Pesticides by Solid-Phase Microextraction: Results of 100µm PDMS GC-MS<br />
in water Round Robin Test 45 min<br />
Analyst (Cambridge) 121: 1381-1386 (1996) immersion<br />
Gorecki, T., Mindrup, R., Pawliszyn, J. stirring<br />
438 Pesticides in <strong>SPME</strong> and GC for Rapid Analysis of Pesticides Review GC-MS<br />
water Aanalusis (1998), 26(6), M137-M143<br />
Miege, C., Dugay, J.<br />
Ambient temperature, unless otherwise indicated. 142
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
298 Chlorinated pesticides Analysis of Organochlorine Pesticides by <strong>SPME</strong> 100µm PDMS GC-MS, -NPD<br />
J. Chromatogr. A 723(1): 111-112 (1996) 90 min<br />
Magdic, S., Pawliszyn, J. immersion<br />
salt added<br />
527 Organochlorine Optimization of <strong>SPME</strong> conditions using a response surface 85µm polyacrylate GC-ECD<br />
pesticides methodology to determine organochlorine pesticides in 45 min @ 60°C<br />
in water water by GC-ECS immersed<br />
J. Chromatogr. A (1999), 844(1+2), 425-432<br />
Aguilar, C., Penalver, A, Pocurull, E., Ferre, J., Borrull, F.,<br />
Marce, R.<br />
agitated<br />
300 Pesticides Effect of Various Parameters Governing <strong>SPME</strong> for the Trace 65µm PDMS/DVB GC-NPD<br />
in water Determination of Pesticides in Water 25°C, 30 min<br />
J. Chromatogr., A 795 (1): 27-42 (1998) immersion<br />
Dugay, J., Miege, C., Hennion, M. pH 7, salt added<br />
301 Pesticides <strong>SPME</strong> and GC-MS Detection for the Determination of 85µm polyacrylate GC-MS<br />
in water Pesticides in Aqueous Samples 55°C, 45 min<br />
J. Chromatogr. A. 795 (1): 105-115 (1998) immersion<br />
Aguilar, C., Penalver, S., Pocurull, E., Borrull, F., Marce, R. stirring, salt added<br />
528 Pesticides Analysis of some pesticides in water samples using <strong>SPME</strong>- GC-MS<br />
in water GC with different Mass Spectrometric techniques<br />
J. Chromatogr, A, 859(2): 193-202 (1999)<br />
Natangelo, M., Tavazzi, S., Fanelli, R., Befenatti, E.<br />
714 Fentin Headspace <strong>SPME</strong> capillary GC-ICP-MS for the 100µm PDMS GC-ICP-MS<br />
in environmental determination of the organotin pesticide fentin in 10-20 min<br />
samples environmental samples 75-85°C<br />
J.Anal. At. Spectrom. (2000), 15(6), 651-656 NaBEt4<br />
Vercauteren, J., DeMeester, A, DeSmaele, T.<br />
Vanhaecka, F., Moens, L., Dams, R., Sandra, P.<br />
pH 8<br />
445 Pesticides Analysis of Pesticides in Environmental Water Samples by 85µm polyacrylate HPLC-UV<br />
in water <strong>SPME</strong>-HPLC 60°C, 60 min 220nm<br />
J. Chromatogr. A 754 (1+2): 137-144 (1996) immersion<br />
Jinno, L., Muramatsu, T., Saito, Y., Kiso, Y., Magdic, S.,<br />
Pawliszyn, J.<br />
stirring, salt added<br />
587 Pesticides Study on solventless sample preparation of pesticides with 85µm polyacrylate HPLC-UV<br />
<strong>SPME</strong>-SFE technique.<br />
Chromatography. Jun 1999; 20(2): 126-127<br />
Selleh,-SH; Saito,-Y; Jinno,-K<br />
3 hr @ 60°C<br />
715 Biologically active <strong>SPME</strong>-GC-MS of biologically active substance in 85µm polyacrylate GC-MS<br />
substance in water water samples 65µm Carbowax/DVB<br />
J. Chromatogr. A., (2000) 873(1), 95-106<br />
Moeder, M., Schrader, S., Winkler, M., Popp, P.<br />
30 min<br />
223 PCBs in <strong>SPME</strong> and Headspace <strong>SPME</strong> for the Determination of PCBs 100µm PDMS GC-MSD<br />
water in Water Samples 100°C, 30 min<br />
Anal. Chem. 1998, 70, 2510-2515 headspace/immersion<br />
Llompart, M., Fingas, M., Li, K. stirring<br />
973<br />
Organochlorine<br />
pesticides in water Determination of organochlorine pesticides in ground water.<br />
J.Chromatogr. A (2002) 963(1-2), 95-105<br />
Perez-Trujillo, J.P.; Frias, S.; Conde, J.E.; Rodriguez-Delgado, M.A.<br />
Various<br />
Ambient temperature, unless otherwise indicated. 143
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
977 Pesticides in water Comparison of different fibers for the analysis of pesticides in water.<br />
J.Chromatogr. A (2002) 963(1-2), 19-26<br />
Goncalves, C.; Alpendurada, M.F.<br />
Various<br />
982 Pesticides in water Monitoring of pesticides in the Kalamas River (Greece)<br />
J.Chromatogr. A (2002) 963(1-2), 107-116<br />
Lambropoulou, D. A.; Sakkas, V.A.; Hela, D.G.; Albanis, T.A.<br />
100 um PDMS GC-MS<br />
998 Pesticides in oranges<br />
1000<br />
Pesticides in drinking<br />
water<br />
1004 Pesticides in water<br />
1009<br />
Pesticides in<br />
groundwater<br />
1011 Acetochlor in water<br />
1019<br />
1046<br />
1047<br />
Fenoxycarb in<br />
environmental samples<br />
Organonitrogen<br />
pesticides in water.<br />
Organochlorine<br />
pesticides.<br />
1048 Fenthion and parathion<br />
Comparison of microextraction procedures to determine pesticides in<br />
oranges by liquid chromatography-mass spectrometry. LC-MS<br />
J.Chromatogr. A (2002) 970(1-2), 201-212<br />
Blasco, C.; Font, G.; Pico, Y.<br />
Multiresidue method for the simultaneous determination of four groups of<br />
pesticides in ground and drinking waters, using solid-phase microextractiongas<br />
chromatography with electron-capture and thermionic specific detection. PDMS/DVB GC<br />
J.Chromatogr. A (2002) 968(1-2), 177-190.<br />
Goncalves, C.; Alpendurada, M. F.*<br />
Monitoring of priority pesticides using <strong>SPME</strong> (solid phase microextraction) in<br />
river water from Greece<br />
Water Sc. Technol. Water Supply (2003) 3 (1-2), 335-342.<br />
Albanis, T.A.; Hela, D.; Lambropoulou, D.A.; Sakkas, V.A.<br />
PDMS GC-MS<br />
Determination of atrazine and four organophosphorus pesticides in ground<br />
water using solid phase microextraction ( <strong>SPME</strong> ) followed by gas<br />
chromatography with selected-ion monitoring.<br />
J.Chromatogr. A (2002) 972(2), 183-194.<br />
Tomkins, B. A.; Ilgner, R. H.<br />
65 um PDMS/DVB GC-SIM<br />
An enzyme-linked immunosorbent assay (ELISA) for the detection of<br />
acetochlor GC-MS<br />
International Journal of Environ. Anal. Chem. (2002) 82 (11-12), 879-891.<br />
Belai, Ivan; Eremin, Sergei; Hegedus, Gyongyver; Krikunova, Vitalia;<br />
Szekacs, Andras<br />
Evaluation of an enzyme immunoassay for the detection of the insect<br />
growth regulator fenoxycarb in environmental and biological samples. GC-MS<br />
Pest Management Science (2003) 59 (4), 410-416.<br />
Szekacs, Andras; Le, Hong T. M.; Szurdoki, Ferenc<br />
Application of solid-phase microextraction for the determination of<br />
organonitrogen pesticides in aqueous samples by gas chromatography with<br />
nitrogen-phosphorus detector.<br />
International Journal of Environmental Analytical Chemistry (2002) 82 (10),<br />
691-703.<br />
Le Calvez, N.; Bodineau, L.; Fischer, J. C.<br />
Various GC<br />
Analysis of organochlorine pesticides by solid-phase microextraction<br />
followed by gas chromatography-mass spectrometry.<br />
International Journal of Environmental Analytical Chemistry (2002) 82 (10),<br />
651-657.<br />
Zambonin, C. G.; Aresta, A.; Nilsson, T.<br />
Various GC-MS<br />
Application of solid-phase microextraction for monitoring the photocatalytic<br />
decomposition of fenthion and parathion in aqueous TiO 2 suspensions. GC-MS<br />
Analytica Chimica Acta (2002) 467 (1-2), 233-243.<br />
Sakkas, V. A.; Lambropoulou, D. A.; Sakellarides, T. M.; Albanis, T. A.*<br />
Ambient temperature, unless otherwise indicated. 144
1096<br />
1113<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Organophosphorous<br />
insecticides in water.<br />
Herbicides in<br />
environmental samples.<br />
1123 Herbicides<br />
1148 Dichlorvos<br />
1152<br />
1172<br />
1177<br />
1192<br />
1219 DDT<br />
1299<br />
1309<br />
Polar pesticides in water<br />
and wine.<br />
Oxidation residues of<br />
herbicides<br />
Pesticides in water<br />
samples.<br />
Atrazine and<br />
organophosphorus<br />
pesticides in soil<br />
Organophosphorous<br />
insecticide residues.<br />
Phenylureas herbicides<br />
in aqueous samples.<br />
Validation of an <strong>SPME</strong> method, using PDMS, PA, PDMS-DVB, and CW-<br />
DVB <strong>SPME</strong> fiber coatings, for analysis of organophosphorus insecticides in<br />
natural waters. Various<br />
Analytical and Bioanalytical Chemistry (2002) 374 (5), 932-941.<br />
Lambropoulou, D. A.; Sakkas, V. A.; Albanis, T. A.*<br />
Solid-phase microextraction for herbicide determination in environmental<br />
samples GC<br />
Journal of Chromatography A (2003) 999 (1-2), 103-121.<br />
Krutz, L.J.; Sciumbato, A.S.; Senseman, S.A.<br />
Determination of herbicides, including thermally labile phenylureas, by solidphase<br />
microextraction and gas chromatography-mass spectrometry<br />
Journal of Chromatography A (2003) 1002 (1-2), 1-12.<br />
Carabias-Martinez, R.; Garcia-Hermida, C.; Hernandez-Mendez, J.;<br />
Rodriguez-Gonzalo, E.; Soriano-Bravo, F.E.<br />
Polyacrylate GC-MS<br />
Determination of dichlorvos by online microwave-assisted extraction<br />
coupled to headspace solid-phase microextraction and gas chromatographyelectron-capture<br />
detection. GC-ECD<br />
Journal of Chromatography, A (2002) 976 (1-2), 349-355.<br />
Chen, Y. I.; Su, Y. S.; Jen, J. F.*<br />
Analysis of polar pesticides in water and wine samples by automated intube<br />
solid-phase microextraction coupled with high-performance liquid<br />
chromatography-mass spectrometry. ESI-MS<br />
Journal of Chromatography, A (2002) 976 (1-2), 357-367.<br />
Wu, J. C.; Tragas, C.; Lord, H.; Pawliszyn, J. *<br />
Determination of oxadiazon residues by headspace solid-phase<br />
microextraction and gas chromatography-mass spectrometry<br />
Journal of Chromatography A (2002) 946(1-2), 239-245<br />
Araujo, Lilia; Navalon, Alberto; Prieto, Avismelsi; Vilchez, Jose Luis<br />
Solventless sample preparation for pesticides analysis in environmental<br />
water samples using solid-phase microextraction-high resolution gas<br />
chromatography/mass spectrometry (<strong>SPME</strong>-HRGC/MS) Various<br />
Journal of Environmental Science and Health - Part B Pesticides, Food<br />
Contaminants, and Agricultural Wastes (2003) 48 (4), 417-428.<br />
Lancas, Fernando M.; Souza, Dalva A.<br />
Solid-phase microextraction method for the determination of atrazine and<br />
four organophosphorus pesticides in soil samples by gas chromatography.<br />
Journal of Chromatography A (2001) 939(1-2), 13-21<br />
Camara, C.; Bouaid, A.; Fernandez, P.; Gonzalez, M. J.; Ramos, L.<br />
GC-MS<br />
On-fiber photodegradation after solid-phase microextraction of p,p '-DDT<br />
and two of its major photoproducts, p,p '-DDE and p,p '-DDD. GC-MS<br />
Journal of Chromatography, A (2003) 985 (1-2), 175-183.<br />
Llompart, M.; Lores, M.; Lourido, M.; Sanchez-Prado, L.; Cela, R.<br />
Determination of organophosphorus insecticide residues by solid-phase<br />
microextraction coupled with gas chromatography-mass spectrometry.<br />
Sepu (2003), 21 (3), 273-276.<br />
Shuai, Q.; Yang, W.; Zheng, Y. J.; Zheng, C. G.<br />
PDMS or polyacrylate. GC-MS<br />
Solid-phase microextraction coupled with high-performance liquid<br />
chromatography for the determination of phenylurea herbicides in aqueous<br />
samples<br />
Journal of Chromatography, A (2003) 1012 (1), 57-66.<br />
Huang, Shang-Da; Lin, Hsin-Hang; Sung, Yu-Hsiang<br />
PDMS-DVB, CW-TPR HPLC<br />
Ambient temperature, unless otherwise indicated. 145
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1316 Dichlorvos in pesticides.<br />
1355 Pesticides in honey.<br />
1364<br />
1369<br />
Organophosphorous<br />
pesticides<br />
Pesticides in<br />
strawberries.<br />
1395 Pesticides<br />
1406 Pesticides<br />
1439 Herbicides in water<br />
1445<br />
1459<br />
1483<br />
Organochlorine pest. In<br />
water<br />
Methyl parathion in<br />
apples<br />
triazole in wine and<br />
strawberries<br />
1494 Organochlorine<br />
pesticides in water<br />
Pesticide vapours in confined atmospheres. Determination of dichlorvos by<br />
<strong>SPME</strong>-GC-MS at the mg m-3 level.<br />
Journal of Environmental Monitoring (2003) 5 (4), 574-577.<br />
Sanusi, Astrid; Montury, Michel; Ferrari, Federico; Millet, Maurice<br />
PDMS GC-MS<br />
A solid-phase microextraction-gas chromatography-mass spectrometry<br />
approach for antivarroa acaricides and pesticide residues in honey.<br />
Chromatographia (2001) 54 (3-4), 241-246.<br />
Volante, M.; Galarini, R.; Miano, V.; Cattaneo, M.; Pecorelli, I.; Bianchi, M.;<br />
Marinoni, M. T.; Cossignani, L.; Damiani, P<br />
100 um PDMS GC-MS<br />
Application of solid-phase microextraction for the determination of<br />
organophosphorus pesticides in aqueous samples by gas chromatography<br />
with flame photometric detector.<br />
Talanta (2001) 55(4), 807-814.<br />
Yao, Z. W.; Jiang, G. B.*; Liu, J. M.; Cheng, W.<br />
Various GC-FID<br />
Focused microwave assistance for extracting some pesticide residues from<br />
strawberries into water before their determination by <strong>SPME</strong>/HPLC/DAD.<br />
Journal of Agricultural and Food Chemistry (2001) 49(11).<br />
Falqui-Cao, C.; Wang, Z.; Urruty, L.; Pommier, J. -J.; Montury, M. *<br />
60 um PDMS/DVB HPLC<br />
Analysis of acidic pesticides using in situ derivatization with<br />
alkylchloroformate and solid-phase microextraction ( <strong>SPME</strong> ) for GC-MS.<br />
Chemosphere (2001) 44(7), 1531-1539.<br />
Henriksen, T.; Svensmark, B.; Lindhardt, B.; Juhler, R. K.<br />
PDMS GC-MS<br />
Formation of volatile halogenated by-products during chlorination of<br />
isoproturon aqueous solutions.<br />
Chemosphere (2001) 45(3), 269-274.<br />
Lopez, A.; Ciannarella, R.; Mascolo, G.; Tiravanti, G.<br />
85 um polyacrylate GC-MS<br />
Factors affecting multiresidue determination of priority herbicides when<br />
using solid-phase microextraction.<br />
Journal of AOAC International (2002) 85(2), 486-493<br />
Albanis, Triantafyllos A.; Konstantinou, Ioannis K.; Lambropoulou, Dimitra<br />
A.<br />
Determination of organochlorine pesticides in water using microwave<br />
assisted headspace solid-phase microextraction and gas chromatography<br />
Journal of Chromatography A (2003) 1012(2), 129-137<br />
Jen, Jen-Fon; Li, Gwo-Chen; Li, Hong-Ping<br />
Field study for degradation of methyl parathion in apples cultivated with<br />
integrated crop management system.<br />
Bulletin of Environmental Contamination and Toxicology (2002) 69(6), 771-<br />
778<br />
Tsatsakis, A. M.; Danis, T. G.; Nikitovic, D. P.; Stratis, I. A.; Toutoudaki, M.;<br />
Tsakiris, I. N.<br />
Solid-phase microextraction and gas chromatography-mass spectrometry<br />
for the rapid screening of triazole residues in wine and strawberries.<br />
Journal of Chromatography A (2002) 967(2), 255-260<br />
Zambonin, C. G.; Cilenti, A.; Palmisano, F.<br />
Determination of organochlorine pesticides in ground water using solidphase<br />
microextraction followed by dual-column gas chromatography with<br />
electron-capture detection.<br />
Journal of Chromatography A (2002) 964(1-2), 21-33<br />
Tomkins, Bruce A.; Barnard, Angela R.<br />
Ambient temperature, unless otherwise indicated. 146<br />
100um PDMS and 85um<br />
Polyacrylate<br />
GC-FID, GC-MS<br />
Various fibers compared GC-ECD<br />
30um PDMS GC-ECD
1495<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Pesticides in bee<br />
products<br />
1505 Dimethylchloroarsine<br />
1522<br />
1531<br />
1554<br />
1551<br />
Analytical methods for pesticide residue determination in bee products.<br />
Journal of Food Protection (2002) 65(9), 1502-1511<br />
Fernandez, M.; Manes, J.; Pico, Y.<br />
Identification of dimethylchloroarsine near a former herbicide factory by<br />
headspace solid-phase microextraction gas chromatography-mass<br />
spectrometry.<br />
Chemosphere (2002) 48(9), 1003-1008<br />
Aldstadt, Joseph H., III; Killelea, Daniel R.<br />
85um Carboxen PDMS<br />
Stableflex<br />
GC-MS<br />
Chlorinated pesticides in<br />
Determination of chlorinated pesticides in water by <strong>SPME</strong>/GC.<br />
water<br />
Water Research (2002) 36(7), 1909-1911<br />
Boussahel, R.; Baudu, M.; Bouland, S.; Montiel, A.; Moussaoui, K. M.<br />
100um PDMS GC-ECD<br />
Organophosphorus<br />
pesticides in cherry and<br />
strawberry juice<br />
Pesticides in water and<br />
food<br />
Pesticides in human<br />
blood<br />
1386 Herbicides<br />
1384<br />
Tebufenpyrad and<br />
oxadiazon.<br />
1558 Polyphenols in wine.<br />
Headspace solid phase microextraction applied to the analysis of<br />
organophosphorus insecticides in strawberry and cherry juices.<br />
Journal of Agricultural and Food Chemistry (2002) 50(12), 3359-3365<br />
Albanis, Triantafyllos A.; Lambropoulou, Dimitra A.<br />
Evaluation of Solid Phase Microextraction-gas chromatography in the<br />
analysis of some pesticides with different mass spectrometric techniques:<br />
Application to environmental waters and food samples.<br />
Analytical Letters (2002) 35(2), 327-338<br />
Benfenati, E.; Natangelo, M.; Tavazzi, S.<br />
Headspace solid-phase microextraction in combination with gas<br />
chromatography and tandem mass spectrometry for the determination of<br />
organochlorine and organophosphorus pesticides in whole human blood.<br />
Journal of Chromatography B (2002) 769(1), 65-77<br />
Hernandez, F.; Beltran, J.; Lopez, F. J.; Pitarch, E.<br />
Various fibers compared GC-MS<br />
GC-ITMS<br />
GC-MS<br />
<strong>Applications</strong> of solid-phase microextraction ( <strong>SPME</strong> ) in the determination of<br />
residues of certain herbicides at trace levels in environmental samples.<br />
Journal of Environmental Monitoring (2001) 49(9), 505-508.<br />
Ramesh, A.; Ravi, P. E.<br />
65 um Carobwax/DVB GC-ECD<br />
Determination of tebufenpyrad and oxadiazon by solid-phase<br />
microextraction and gas chromatography-mass spectrometry.<br />
Chromatographia (2001) 54(5-6), 377-382.<br />
Navalon, A.; Prieto, A.; Araujo, L.; Vilchez, J. L.*<br />
100 um PDMS GC-MS<br />
Gas phase post derivitization following <strong>SPME</strong> for rapid analysis of<br />
polyphenols in wine by GC-MS.<br />
Zhongshan Daxue Xuebao, Ziran Kexueban 40(1) 54-57. Chinese<br />
Luan, Tian-gang; Li, Gong-ke; Zhang, Zhan-xia.<br />
2078 Pesticides Fast screening determination of some ubiquitous 85µm polyacrylate GC-MS<br />
in water pesticides with <strong>SPME</strong> in water samples immersion sampling<br />
Analytical Letters, 37, #7, 1427-1436<br />
Moreira Vaz, J.; Komatsu, E.<br />
2079 Pesticides in Multiresidue method using <strong>SPME</strong> for the determination 100µm PDMS GC-MS<br />
air of various peticides with different volatility in 40min<br />
confined atmospheres dynamic air sampling<br />
Anal and Bioanal Chemistry, 379, #3, 476-483<br />
Ferrari, F; Sanusi, Ad; Millet, M; Montury, M<br />
2080 Chlorpyrifos Interactions of chlorpyrifos with colloidal materials GC<br />
from water in aqueous systems<br />
J of Environmental Quality, 33., #5, 1765-1770<br />
Wu, Jigang; Laird, David A.<br />
Ambient temperature, unless otherwise indicated. 147
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2081 Pesticides in <strong>SPME</strong>-GC-(tandem) MS as a tool for pesticide residue 65µm PDMS-DVB GC-MS-MS<br />
water analysis in water samples at high sensitivity and immersed fiber<br />
selectivity w/ confirmation capabilities<br />
J Chromatogr A, 1026, #1-2, 239-250<br />
Goncalves, C.; Alpendurada, M. F.<br />
2082 Dieldrin in Transport and fate of dieldrin in poplar and willow headspace GC<br />
trees trees analyzed by <strong>SPME</strong><br />
Chemosphere, 61, #1,, 85-91<br />
Anderson, Larry G.; Ramaswami, Anu; Skaates, S.<br />
2083 Pesticides Pesticide residue analysis in waters by <strong>SPME</strong> 100µm PDMS GC-MS-MS<br />
in water coupled to GC-tandem mass spectrometry. 65µm PDMS-DVB<br />
Analytical Letters, 37, 1, 99-117<br />
Arrebola, F. ; Cortes Aguado, S.; Sanchez-Morito, N.;<br />
Garrido Frenich, A.; Martinez Vidal, J.<br />
2084 Pesticides Determination of pesticides and some metabolites in headspace/ immersed GC-MS-MS<br />
in milk different kinds of milk by <strong>SPME</strong> and low-pressure GC-MS-MS acidified sample<br />
Anal. Bioanal. Chem., 381, #1, 164-172<br />
Frenich, A. Garrido; Gonzalez-Rodriguez, M.J.; Liebanas, F. J.<br />
Arrebola; Lopez, F. J. Sanchez; Vidal, J. L. Martinez<br />
2085 Organo- Comparison of <strong>SPME</strong> and stir bar sorptive 100µm PDMS LC-MS<br />
phosphorus extraction for determining six organophosphorus<br />
insecticides insecticides in honey by LC-MS<br />
in honey J Chromatogr A, 1030, #1-2, 77-85<br />
Blasco, C.; Fernandez, M.; Pico, Y.; Font, G.<br />
2086 Pyrethroid Application of <strong>SPME</strong> for the determination of pyrethroid immersion sampling GC/MS<br />
In vegetables residues in vegetable samples by GC-MS<br />
Anal. Bioanal. Chem., 376, #4, 502-511<br />
Beltran, J.; Hernandez, F.; Lopez, F.J.; Peruga, A.; Pitarch, E.<br />
2087 Pesticides in Water quality and presence of pesticides in a immersion sampling GC<br />
water tropical coastal wetland in southern Mexico<br />
Mar. Pollut. Bull., 48, #11-12, 1130-1141<br />
Bello-Mendoza, R; Hernandez-Romero, A.; Malo, E.; Tovilla-Hernandez,<br />
C<br />
2088 p,p'-DDT Determination of dichlorodiphenyltrichloroethane in 100µm PDMS GC-ECD<br />
in water water using automated <strong>SPME</strong>-GC-ECD immersion sampling<br />
Fenxi Huaxue, 32, #4, 500-502<br />
Luan, T. G.; Lan, C. Y.; Zhou, H. L.; Wong, M. H.<br />
2089 Fluazifop Evaluation of an <strong>SPME</strong> and GC-MS method for 100µm PDMS GC-MS<br />
in water analysis of fluazifop in water. stirring<br />
Acta Chromatographica, 14, #1, 231-236<br />
Olszewska, E.<br />
2090 Pesticides Cost analysis of ELISA, solid-phase extraction, and comparison of cost GC<br />
in water <strong>SPME</strong> for the monitoring of pesticides in water<br />
Environmental Research, 98, #1, 143-150<br />
Dalvie, M.; Sinanovic, E.; London, L; Cairncross, E;<br />
Solomon, A.; Adam, H.<br />
2091 Prethroid Advanced method using microwaves and <strong>SPME</strong> 100µm PDMS GC-MS<br />
residue on coupled w/GC-MS for the determination of pyrethroid 30min immersed<br />
strawberries residues in strawberries water/acetornitrile<br />
J. Chromatogr. A, 1046, #1-2, 35-40 preextraction<br />
Guillet, Valerie; Montury, Michel; Sanusi, Astrid<br />
2092 Pesticides in Analysis of pesticide residues in juice and beverages "review" Review article GC-MS<br />
beverages Crit. Rev. Anal. Chem., 34, #2, 121-131<br />
Albero, B; Gonzalez, L; Sanchez-Brunete, C; Tadeo, J.<br />
2093 Pesticides Combining <strong>SPME</strong> and on-line preconcentration-capillary CE-UV<br />
in water electrophoresis sensitive analysis of pesticides in foods<br />
Electrophoresis, 26, #4-5, 980-989<br />
Hernandez-Borges, J.; Cifuentes, A.;<br />
Garcia-Montelongo, F.; Rodriguez-Delgado, M.<br />
Ambient temperature, unless otherwise indicated. 148
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2094 Pesticides in Highly sensitive analysis of multiple pesticides in foods NH 2HCO 3 buffer CE-MS<br />
food combining <strong>SPME</strong>, capillary electrophoresis-MS & chemometrics pH 4 CE-UV<br />
Electrophoresis, 25, #13, 2065-2076<br />
Hernandez-Borges, Javier; Rodriguez-Delgado, M.;<br />
Garcia-Montelongo, Francisco J.; Cifuentes,A.<br />
2095 Pesticides Application of <strong>SPME</strong> to the study of the photochemical 100µm PDMS GC-MS<br />
in water behaviour of five priority pesticides: "On-fiber" 30min extract<br />
and aqueous photodegradation immersion sampling<br />
J. Chromatogr. A, 1047, #2, 271-279<br />
Sanchez-Prado, Lucia; Llompart, Maria; Lores, Marta;<br />
Garcia-Jares, Carmen; Cela, Rafael<br />
2096 Pesticides in Applicability of headspace<strong>SPME</strong> to the determination 30µm polyacrylate GC-MS<br />
water of multi-class pesticides in waters. 30° to 100°C<br />
J Chromatogr A, 1028, #1, 63-74 headspace<br />
Sakamoto, Mitsushi; Tsutsumi, Taizou<br />
Soil<br />
36 Hexachlorocyclohexane Application of <strong>SPME</strong> and GC with Electron-Capture and Mass 100µm PDMS GC-ECD,<br />
in soil Mass Spectrometric Detection for the Determination of 20-30 min GC-MS<br />
Hexachlorocyclohexanes in Soil Solutions immersion<br />
J. Chromatogr. 687: 133-140 (1994)<br />
Popp, P., Kalbitz, K., Opperman, G.<br />
stirring<br />
74 Diesel fuel Solid Phase Microextraction-GC for Analysis of Diesel Fuel 100µm PDMS GC-FID<br />
in soil Residues in Soil 55°C, 30 min<br />
Request from Dept. Soil Science, University of Manitoba<br />
Winnipeg, MB, Canada R3T 2N2.<br />
Graham, K., Webster, B., Sarna, L.<br />
headspace<br />
716 THF, methanol Analysis of THF and methanol in distillation residue 65µm PDMS/DVB GC-FID<br />
in distillate samples by automated headspace <strong>SPME</strong>-GC with FID 9min.<br />
J Chromatogr. Sci. (2000), 38(3), 117-121<br />
Gavlick, W.<br />
headspace<br />
870 PAHs in The use of <strong>SPME</strong> and GC-MS for the chemical characterization<br />
environmental and assessment of PAH pollution in aqueous<br />
samples environmental samples<br />
Int. J. Environ. Anal. Chem (2000) 78(3-4) 205-221<br />
Havenga, Willem J.; Rohwer, Egmont R<br />
717 PAHs Solid Phase Microextraction of PAHs from soil<br />
in soil Chem. Ana., 2000 (45 No.6) 835-842<br />
Sedukiene, I., Vickackaite, V., Kazlauskas, R.<br />
567 PAHs Chemical characterization and screening of hydrocarbon 100µm PDMS GC-MS<br />
in soil pollution in industrial soils by headspace <strong>SPME</strong> 40 min<br />
J-Chromatogr,-A. 2 Jul 1999; 848(1-2): 279-295<br />
Havenga,-WJ; Rohwer,-ER<br />
headspace<br />
865 PAHs Solid phase microextraction of PAHs from soil<br />
in soil Chemia Analityczna (Warsaw) (2000) 45(6) 835-842 30min @ 60°C<br />
Seduikiene, I.; Vickackaite, V.; Kazlauskas, R. heaspace<br />
75 Pesticides Extraction of Pesticides by Solid Phase Microextraction 100µm PDMS GC-ECD, -NPD<br />
in soil (from Soil) immersed,<br />
Request from: Dept. Environmental Assessment, Swedish<br />
University of Agricultural Sciences, PO Box 7050,<br />
Uppsala, Sweden<br />
Bengsson, S., Berglof, T.<br />
water solution<br />
Ambient temperature, unless otherwise indicated. 149
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
855 Triazine, amides Determination of triazines and amides in water using GC-MS<br />
in water solid-phase microextraction coupled with GC-MS.<br />
Chromatographia (2001) 53(5-6), 306-310<br />
Hu, R.; Elia, D.; Berthion, J. -M.; Poliak, S.<br />
529 Triazines, Determination of polar pesticides in soil by <strong>SPME</strong> couple to 85µm polyacrylate HPLC-MS<br />
carbamates HPLC-MS salt added<br />
in soil leachates Fresenius'J. Anal. Chem. (1999), 363(7), 680-685<br />
Moder, M., Popp, P., Eisert, R., Pawliszyn, J.<br />
718 Triazines, Determination of triazines in soil leachates by <strong>SPME</strong> 85µm polyacrylate GC-MS<br />
in soil leachates coupled to GC-MS 30min @ 20°C<br />
J. Chromatogr. A 2000, 874(2), 247-255<br />
Zambonin, C.., Palmisano, F.<br />
aggitation<br />
530 Organophosphorus Determination of organophosphorus pesticides in soil 85µm polyacrylate GC-FID<br />
pesticides in by headspace <strong>SPME</strong> 1 hr @ 80°C<br />
soil Fresenius'J. Anal. Chem (1999), 363(7), 673-679<br />
Ng, W., Teo, M., Lakso, H.<br />
headspace over soil<br />
76 Lindane Analysis of Lindane in Water and Soil by Solid Phase 30µm & 100µm PDMS GC-ECD<br />
in water and soil Microextraction 58°C<br />
Request from: Dept. Soil Science, University of Manitoba, 40 min (headspace)<br />
Winnipeg MB, Canada R3T 2N2.<br />
Anderson, K., Sarna, L., Webster, B.<br />
15-20 min (immersion)<br />
880 Organochlorine Determination of organochlorine pesticides and their 100µm PDMS, GC-ECD<br />
pesticides in metabolities in soil samples using headspace <strong>SPME</strong> 65µm DVB/PDMS<br />
soil J.Chromatogr. A (2001) 918(1), 177-188 60min@70C<br />
Doong, R., Liao, P. heahspace<br />
stirred<br />
881 Fipronil in Determination of fipronil by <strong>SPME</strong> and GC-MS 85µm polyacrylate GC-MS<br />
water, soil, urine J chromatogr. A 919(2001) 215-221 30min. @ 60°C<br />
Vilchez, J., Prieto, A., Araujo, L., Navalon, A. stirred<br />
9.5 pH<br />
857 Metochlor Determination of metolachlor volatile flux from<br />
from soil soil using <strong>SPME</strong><br />
Prepr. Ext. Abstr. ACS (2001) 41(1) 307-311<br />
McConnell, L.; Kim, H; Nochetto, C; Gish, T; Prueger, J<br />
833 Halobenzenes Gas chromatography/ion-trap tandem mass spectrometry 100µm PDMS GC-MS<br />
in soil and water for the analysis of halobenzenes in soils by <strong>SPME</strong><br />
Rapid Commun Mass Spectrometry (2000) 14(23) 2271-2281<br />
Sarrion, M. N.; Santos, F. J.; Galceran, M. T.<br />
45min<br />
92 Chlorobenzenes Analysis of Chlorobenzenes in Soils by Headspace <strong>SPME</strong> 100µm PDMS GC-Ion Trap<br />
in soil and water and GC-Ion Trap MS<br />
J. Chromatogr. A 771: 181-189 (1997)<br />
Santos, F., Sarrion, M., Galceran, M.<br />
headspace MS<br />
921 Chlorobenzenes Strategies for the analysis of chlorobenzenes in soils using GC-Ion Trap<br />
in soil <strong>SPME</strong> coupled with GC-ion trap mass spectrometry<br />
J. Chromatogr. A (1998), 819(1-2), 197-209<br />
Sarrión, M., Santos, F., Galceran, M.<br />
MS<br />
238 Chlorobenzenes, Analysis of Chloro- and Nitroanilines and Benzenes in Soil 85µm polyacrylate GC-ECD<br />
nitrobenzenes, by Headspace Solid-Phase Microextraction headspace<br />
anilines in soil, water J. Chromatogr. A 746: 71-81 (1996)<br />
Fromberg, A., Nilsson, T., Larsen, R., Montanarella, L.,<br />
Facchetti, S., Madsen, J.<br />
50°C, 30 min<br />
Ambient temperature, unless otherwise indicated. 150
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
97 Semivolatiles Coupled Subcritical Water Extraction with <strong>SPME</strong> for 100µm PDMS GC-MS<br />
in solids Determining Semivolatile Organics in Environmental Solids 15 min<br />
Anal. Chem. 68: 3892-3898 (1996)<br />
Hageman, K., Mazeas, L., Grabanski, C., Miller, D., Hawthorne, S.<br />
immersion<br />
793 Phenols Fast determination of phenols in contaminated soils 85µm polyacrylate GC-FID<br />
in soil J. Chromatogr., A (2001) 911(1), 135-141 60min. @20°C<br />
Baciocchi, R.; Attina, M.; Lombardi, G.; Boni, M. R immersion, pH 1<br />
719 Chlorophenols Determination of chlorophenols in soil using accelerated 85µm polyacrylate GC-MS<br />
in soil solvent extraction combined with <strong>SPME</strong> 20min. @20°C<br />
Anal. Chem. (2000), 72(3), 46-551 immersion, pH 2<br />
Wennrich, L, Popp, P., Moeder, M. satr NaCl<br />
531 Volatiles and Headspace <strong>SPME</strong> for the determination of volatile and 100µm PDMS GC-MSD<br />
semivolatiles semivolatile pollutants in soils 30 min @ 20°C<br />
in soils/water Talanta (1999), 48(2), 451-459<br />
Llompart, M., Li, K., Fingas, M.<br />
headspace<br />
532 PAHs, hydrocarbons Investigation by <strong>SPME</strong> and GC-MS of organic films on GC-MS<br />
in pollutant crust stone monuments<br />
Rapid. Commun. Mass Spectrom. (1999), 13(10), 895-900<br />
Angelis, F., Di Tullio, A., Mellerio, G., Quaresima, R, Volpe, R<br />
533 Aldehydes, acids Degradation of palmitic (Hexadecanoic) acid deposited on<br />
from palmitic acid TiO2 coated self cleaning glass: kinetics of disappearance,<br />
intermediate products and degradation pathways<br />
New J. Chem (1999), 23(4), 365-374<br />
Romeas, V., Pichat, P., Guillard, C., Chopin, T., Lehaut, C.<br />
534 PAHs in Interaction between natural organic matter (NOM) and 85µm polyacrylate GC-MS<br />
organic matter polycyclic aromatic compounds, Comparison of 30 min<br />
fluorescence quenching and <strong>SPME</strong> pH3, immersed<br />
Fresenius'J. Anal. Chem. (1999), 364(4), 313-319<br />
Myung, S., Kim, M., Min, H., Yoo, E. Kim, K.<br />
alkyl formate derivative<br />
172 Elemental analysis Elemental and Organometallic Analysis of Soil Using 100µm PDMS GC-MS<br />
of soil Glow-Discharge MS and GC-MS 50°C, 10 min<br />
Rapid Commun. Mass Spectrom. 10: 341-346 (1996)<br />
Barshick, C., Barshick, S., Mohill, M., Britt, P., Smith, D.<br />
salt added<br />
174 Mercury species in Performance Improvements in the Determination of Mercury GC-ICP<br />
natural gas condensate Species in Natural Gas Condensate Using Online<br />
Amalgamation Trap or <strong>SPME</strong> with Capillary GC-Microwave-<br />
Induced Plasma Atomic Emission Spectrometry<br />
Analyst 121: 1055-1060 (1996)<br />
Snell, J., Frech, W., Thomassen, Y.<br />
535 Organomercury <strong>SPME</strong> and GC-MIP-AED for the speciation analysis of GC-MIP-AED<br />
in soil and water organomercury compounds<br />
J. High Resolut. Chromatogr. (1999), 22(3), 181-182<br />
Mothes, S., Wennrich, R.<br />
239 BTEX, chlorinated The Determination of Volatile Organic Compounds in Soils 100µm PDMS GC-MS<br />
hydrocarbons Using <strong>SPME</strong> with Gas Chromatography-Mass Spectrometry 5 min<br />
in soil J. High Res. Chromatogr. 19: 515-519 (1996)<br />
James, K., Stack, M.<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 151
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
197 VOCs in Environmental Analysis of Volatile Organic Compounds in overview<br />
water and sediment Water and Sediment by GC<br />
J.Chromatogr. A 733A 733: 119-141 (1996) (review)<br />
Kuran, P., Sojak, L.<br />
article<br />
536 VOCs in Determination of VOC contamination in borehole sediments<br />
sediment by headspace <strong>SPME</strong>-GC analysis water solution<br />
Fresenius' J. Anal. Chem 1999, 364(7), 645-647<br />
Dermietzel, Jurgen, Strenge, G.<br />
headspace<br />
768 Tributyltin Determination of tributyltin by automated in-tube In-tube <strong>SPME</strong> LC-ES-MS<br />
in water <strong>SPME</strong> with HPLC-ES-MS<br />
J Anal At Spectrom (2001) 16(2), 159-165<br />
Wu, J; Mester, Z; Pawliszyn, J.<br />
Supel-Q PLOT<br />
720 Butyltin Determination of butyltin compounds in aqueous GC-FID<br />
in water samples by GC w/FPD and headspace <strong>SPME</strong> after<br />
in-situ hydride derivatization<br />
Aanl. Sci. 2000, 16(6), 585-588<br />
NaBEt4<br />
Jiang, G, Liu, J. Japanese<br />
771 Butyltin Determination of butyltin compounds in sediments GC-FPD<br />
in sediment by headspace <strong>SPME</strong> and capillary GC w/FPD using quartz<br />
surface induced luninescence<br />
Fenxi Huaxue (20001) 29(2), 158-160 KBH-4<br />
Liu, J; Jiang, G. in Chinese<br />
721 Butyltin Determination of butyltin species in water and GC-FID<br />
in water sediment by <strong>SPME</strong>-GC-FID<br />
J.Chromatogr. A (2000), 873(1), 61-71<br />
Millan, E., Pawliszyn, J.<br />
NaBEt4<br />
888 Solid phase microextraction as a tool for trace<br />
element speciation<br />
Spectrochim. Acta, Part B (2001) 56B(3), 233-260<br />
Mester, Z.; Sturgeon, R.; Pawliszyn, J.<br />
852 Butyltin Speciation of butyltin compounds in marine sediments with 100µm PDMS GC-MS<br />
in marine sediment headspace <strong>SPME</strong> and gas chromatography: MS<br />
Fresenius' J. Anal. Chem 2001, 369(6), 510-515 headspace<br />
Cardellicchio, N.; Decataldo, A.; Di Leo, A.; Giandomenico, S. NaBEt4 derivative<br />
722 Butyl-, phenyltin <strong>SPME</strong>: a new procedure for the control of butyl- 100µm PDMS GC-FID<br />
in water and phenyltin pollution in the environment by GC-FID 60 min, immersed<br />
Analyst (Cambridge, UK) 2000, 125(2), 263-268<br />
Aguerre, S., Montigny, C, Lespes, G., Gaultier, M.<br />
NaBEt4<br />
199 Organotin Solid Phase Microextraction to Study the Sorption of 100µm PDMS GC-MS<br />
in humic organic matter Organotin Compounds onto Particulate and Dissolved 30 min<br />
Humic Organic Matter<br />
Environ. Sci. Technol. 31: 3629-3636 (1997)<br />
Poerschmann, J., Kopinke, F., Pawliszyn, J.<br />
immersion<br />
343 Methylmercury Development of a Technique for the Analysis of Inorganic 100µm PDMS, GC-MS<br />
derivative Mercury salts in Soils by GC-MS 65µm PDMS/DVB<br />
in soil Intl. J. Mass Spectrometry 178 (1998) 31-41 50°C, 5 min<br />
Barshick, C., Barshick, S., Britt, P., Lake, D., Vance, M., stirring, salt added<br />
Walsch, E. methyl bis(dimethylgloximate)<br />
pyridinecobalt (III)<br />
Ambient temperature, unless otherwise indicated. 152
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
723 Methylmercury Determination of methylmercury by <strong>SPME</strong>-ICP-MS: a new ICP-MS<br />
derivative sample introduction method for volatile metal species<br />
in soil J. Anal. AT. Spectrom (2000) 15(7), 837-842<br />
Mester, Z., Lam, J., Sturgeon, R, Pawliszyn, J.<br />
209 <strong>Applications</strong> of Sorbent Extraction in Environmental Analysis<br />
Chem. Anal. (Warsaw) 42 (3): 297-314 (1997)<br />
Gorlo, D., Namiesnik, J., Zygmunt, B.<br />
303 PAHs, amines, aromatic Coupled Subcritical Water Extraction with <strong>SPME</strong> for 100µm PDMS GC-ECD<br />
from soil & particulate Determining Semivolatile Organics in Environmental Solids 15 min<br />
Anal. Chem. (1996) 68, 3892-3898<br />
Hageman, K., Mazeas, L., Grabanski, C, Miller, D.,<br />
Hawthorne, S.<br />
immersion<br />
884 Phenyl compounds Determination of phenyl compounds in drinking water by<br />
in water solid phase microextraction coupled with capillary GC/MS<br />
Huanjing Huaxue (2001) 20(2) 191-195<br />
920 PCBs Simple method for estimating PCH concentratons on soils<br />
in soil and sediments using subcritical water extraction coupled<br />
with <strong>SPME</strong><br />
J. Chromatogr. A (1998), 814(1-2) 151-160<br />
Hawthorne, S., Grabanski, C., Hageman, K. Miller, D.<br />
304 PCBs Solid-Phase Microextraction of Polychlorinated Biphenyls 100µm PDMS GC-ECD<br />
in soil J. Chromatogr. A 800 (2): 257-266 (1998) 15 min<br />
Yang, Y., Miller, D., Hawthorne, S. immersion<br />
370 PCBs Adsorption versus Absorption of PCBs onto <strong>SPME</strong> Coatings 7µm PDMS GC-ECD<br />
in soil Anal. Chem. 1998, Vol. 70, 1866-1869 5 hr<br />
Yang, Y., Hawthorne, S., Miller, D. immersion<br />
stirring, salt added<br />
537 PCBs in Headspace <strong>SPME</strong> for the determination of PCBs in soils 100µm PDMS GC-MS<br />
soil & sediment and sediments 30 min @ 100°C<br />
water slurry J. Microcolumn Sep. (1999), 11(6), 307-402<br />
Llompart, M., Li, K., Fingas, M.<br />
headspace<br />
724 PAHs Determination of PAHs in sediment using <strong>SPME</strong> w/GC-MS 100µm PDMS GC-MS<br />
in sediment J. Chromatogr. Sci. (2000), 38(2), 55-60<br />
Cam, D., Gagni, S., Meldolesi, L., Galletti, G.<br />
538 Bisphenol A An attempt by <strong>SPME</strong> with on-column silylation for a rapid GC-MS<br />
in water and highly sensitive determination of bisphenol A BSTFA derivative<br />
Bunseki Kagaku (1999) 48(6), 589-593<br />
Takao, Y. Lee, H., Arizono, K.<br />
Japanese<br />
305 Organics <strong>SPME</strong> of Semivolatile Organic Compounds from<br />
from odoriferous Odoriferous Samples<br />
samples Hazard. Ind. Wastes (28th) 734-738 (1996)<br />
Wojtowicz, C., Clifton, A., Willy, D.<br />
1014<br />
Tin and butyltin in<br />
sediment<br />
Assessment of tin and butyltin species in estuarine superficial sediments<br />
from Gipuzkoa, Spain<br />
Chemosphere (2003) 51 (8), 643-649.<br />
Arambarri, I.; Garcia, R.; Millan, E.<br />
PDMS GC-FID<br />
Ambient temperature, unless otherwise indicated. 153
1028<br />
1040<br />
1068<br />
1108<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Methylmercury and<br />
butyltin in sediments<br />
Bis(2-chloroethyl) sulfide<br />
in soil.<br />
Chlorophenols in landfill<br />
leachates<br />
Musk compounds in<br />
sludge.<br />
1193 VX in soil<br />
1220 Triazines in soil.<br />
1240 PAHs in sediment<br />
1255 VX nerve agent in soil.<br />
1297 Isocarbophos in soil.<br />
1320<br />
Determination of methylmercury and butyltin compounds in marine biota<br />
and sediments using microwave-assisted acid extraction, solid-phase<br />
microextraction, and gas chromatography with microwave-induced plasma<br />
atomic emission spectrometric detection. GC-MIP-AES<br />
Analytical Chemistry (2002) 74 (18), 4694-4701.<br />
Tutschku, S.; Schantz, M. M.; Wise, S. A.*<br />
Application of headspace solid-phase microextraction and gas<br />
chromatography-mass spectrometry for detection of the chemical warfare<br />
agent bis(2-chloroethyl) sulfide in soil. Polyacrylate GC-MS<br />
Journal of Chromatography, A (2002) 971 (1-2), 185-191.<br />
Kimm, G. L.; Hook, G. L.; Smith, P. A.*<br />
Direct determination of chlorophenols in landfill leachates by solid-phase<br />
micro-extraction-gas chromatography-mass spectrometry. GC-MS<br />
Journal of Chromatography, A (2002) 975 (2), 267-274.<br />
Ribeiro, A.; Neves, M. H.; Almeida, M. F.; Alves, A.; Santos, L. *<br />
Determination of musk compounds in sewage treatment plant sludge<br />
samples by solid-phase microextraction<br />
Journal of Chromatography A (2003) 999 (1-2), 185-193.<br />
Cela, Rafael; Garcia-Jares, Carmen; Llompart, Maria; Polo, Maria; Salgado,<br />
Carmen<br />
Various GC-MS<br />
Detection of VX contamination in soil through solid-phase microextraction<br />
sampling and gas chromatography/mass spectrometry of the VX<br />
degradation product bis(diisopropylaminoethyl)disulfide.<br />
Journal of Chromatography A (2003) 992 (1-2), 1-9.<br />
Smith, Philip A.; Ding, Bangwei; Hook, Gary L.; Kimm, Gregory; Koch,<br />
David; Savage, Paul B.<br />
PDMS GC-MS<br />
Determination of triazines in soil by microwave-assisted extraction followed<br />
by solid-phase microextraction and gas chromatography-mass<br />
spectrometry. GC-MS<br />
Journal of Chromatography, A (2003) 985 (1-2), 167-174.<br />
Shen, G.; Lee, H. K.*<br />
Micellar microwave-assisted extraction combined with solid-phase<br />
microextraction for the determination of polycyclic aromatic hydrocarbons in<br />
a certified marine sediment.<br />
Analytica Chimica Acta (2003) 477 (1), 81-91.<br />
Pino, V.; Ayala, J. H.; Afonso, A. M.; Gonzalez, V. *<br />
PDMS, polyacrylate. GC-MS<br />
Detection of O -ethyl- S -(2-diisopropylaminoethyl) methylphosphonothiolare<br />
(VX) contamination in soil through solid-phase microextraction sampling and<br />
gas chromatography/mass spectrometry of the VX degradation product<br />
bis(diisopropylaminoethyl)disulfide. GC-MS<br />
Journal of Chromatography, A (2003) 992 (1-2), 1-9.<br />
Hook, G. L.; Kimm, G.; Koch, D.; Savage, P. B.; Ding, B. W.; Smith, P. A.*<br />
Determination of isocarbophos in soil samples by gas chromatographymass<br />
spectrometry with combination of microwave-assisted extraction and<br />
solid-phased microextraction. GC-MS<br />
Fenxi Ceshi Xuebao (2003) 22 (4), 13-16.<br />
Yang, Y.; Li, G. K.*<br />
Determination of antifouling compounds in marine sediments by solid-phase<br />
microextraction coupled to gas chromatography-mass spectrometry. GC-MS<br />
Journal of Chromatography, A (2003) 1010 (1), 1-8.<br />
Lambropoulou, D. A.; Sakkas, V. A.; Albanis, T. A.*<br />
Ambient temperature, unless otherwise indicated. 154
1363<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Petroleum hydrocarbons<br />
in soil<br />
1385 n-alkanes in soil.<br />
1394 Hydrocarbons in soil.<br />
1411<br />
Butyltin species in<br />
sediment.<br />
1446 Chlorophenols in soil<br />
1461 Organophosphorus<br />
pesticides in soil<br />
1462<br />
Tributyltin in water and<br />
soil<br />
1464 Aromatic acids in soil<br />
1486 Monoaromatic<br />
hydrocarbons in soil<br />
1490 Tributyltin in sediment<br />
1491 Organometallics in soil<br />
Determination of petroleum hydrocarbons in contaminated soils using solidphase<br />
microextraction with gas chromatography-mass spectrometry. 100 um PDMS GC-MS<br />
Journal of Chromatographic Science (2001) 39(11), 481-486.<br />
Cam, D.; Gagni, S.<br />
A new PVC-activated charcoal fibre coated on silver wire: application in<br />
determination of n-alkanes in the headspace of soil samples by <strong>SPME</strong>-GC.<br />
Analytical Sciences (2002) 18(1), 77-81.<br />
Farajzadeh, M.; Matin, A. A.<br />
Activated charcoal/PVC GC<br />
Determination of hydrocarbons in old creosote contaminated soil using<br />
headspace solid-phase microextraction and GC-MS.<br />
Chemosphere (2001) 44(7), 1641-1648.<br />
Eriksson, M.; Faeldt, J.; Dalhammar, G.; Borg-Karlson, A. -K.<br />
30 um PDMS GC-MS<br />
Headspace solid-phase microextraction of butyltin species in sediments and<br />
their gas chromatographic determination. 100 um PDMS<br />
Journal of Separation Science (2001) 24(6), 459-464.<br />
Gui-bin, Jiang; Ji-yan, Liu; Ke-wu, Yang; Qun-fang, Zhou<br />
Determination of chlorophenols in soil samples by microwave-assisted<br />
extraction coupled to headspace solid-phase microextraction and gas<br />
chromatography - Electron-capture detection<br />
Journal of Chromatography A (2003) 1012(2), 111-118<br />
Jen, Jen-Fon; Wei, Ming-Chi<br />
Solid-phase microextraction coupled to gas chromatography- mass<br />
spectrometry for the study of soil adsorption coefficients of<br />
organophosphorus pesticides<br />
Journal of Environmental Monitoring (2002) 4(4), 477-481<br />
Zambonin, C. G.; Palmisano, F.; Losito, I.; Cilenti, A.<br />
Gas phase detection of tributyltin chloride arising from aqueous and solid<br />
matrices.<br />
Journal of Analytical Atomic Spectrometry (2002) 17(11), 1506-1510<br />
Bancon-Montigny, Chrystelle; Lam, Joseph W.; Maxwell, Paulette; Mester,<br />
Zoltan; Sturgeon, Ralph E.; Yang, Lu<br />
Separation and identification of aromatic acids in soil and the Everglades<br />
sediment samples using solid-phase microextraction followed by capillary<br />
zone electrophoresis.<br />
Journal of Chromatography A (2002) 979(1-2), 417-424<br />
Deng, Yiwei; Fan, Xiaofang<br />
Solid-phase microextraction-gas chromatographic determination of volatile<br />
monoaromatic hydrocarbons in soil.<br />
Fresenius' Journal of Analytical Chemistry (2002) 370(8), 1096-1099<br />
Zygmunt, Bogdan; Namiesnik, Jacek<br />
Improvement in measurement precision with <strong>SPME</strong> by use of isotope<br />
dilution mass spectrometry and its application to the determination of<br />
tributyltin in sediment using <strong>SPME</strong> GC-ICP-MS.<br />
Journal of Analytical Atomic Spectrometry (2002) 17(8), 944-949<br />
Yang, Lu; Mester, Zoltan; Sturgeon, Ralph E.<br />
Gas phase sampling of volatile (organo)metallic compounds above solid<br />
samples.<br />
Journal of Analytical Atomic Spectrometry (2002) 17(8), 868-871<br />
Mester, Zoltan<br />
Ambient temperature, unless otherwise indicated. 155<br />
85um Polyacrylate, 1g soil in<br />
6mL water, pH 2, 9mins.<br />
Headspace<br />
GC-ECD<br />
GC-MS<br />
GC-MS<br />
85um Polyacrylate CZE<br />
100um PDMS GC-MS<br />
100um PDMS, sodium<br />
tetraethylborate derivative<br />
GC-IDMS<br />
ICP-MS
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1150 Tributyltin in sediment<br />
1326<br />
Polycyclic musks in<br />
sewage.<br />
Determination of tributyltin compounds in surface sediments of harbour by<br />
gas chromatography with headspace solid-phase microextraction GC-FPD<br />
Fenxi Ceshi Xuebao (2003) 22 (2), 28-30.<br />
Lei, Z.; Huang, C. J.; Jia, L.; Shi, H. H.<br />
Removal of two polycyclic musks in sewage treatment plants: freely<br />
dissolved and total concentrations. GC-MS<br />
Environmental Science and Technology (2003) 37 (14), 3111-3116.<br />
Artola-Garicano, E.; Borkent, I.; Hermens, J. L. M.; Vaes, W. H. J.<br />
2097 Chloro- <strong>SPME</strong> as a tool to predict internal concentrations 30µm PDMS GC<br />
benzenes of soil contaminants in terrestrial organisms after 1 day sample<br />
in soil exposure to a laboratory standard soil. headspace<br />
Chemosphere, 54, #4, 561-568<br />
van der Wal, L.; van Gestel, C.; Hermens, J.<br />
2098 Butyltin in Applicability of <strong>SPME</strong> combined with GC-MIP AED for the ethylated derivative GC-MIP AED.<br />
sediment determination of butyltin compounds in sediment samples. headspace<br />
Analytical and Bioanalytical Chemistry, 380, #5-6, 853-857 sonication<br />
Carpinteiro, J.; Rodriguez, I. *; Cela, R.<br />
2099 Hydrocarbons Surface geochemical results complement headspace GC<br />
in soil conventional development approaches<br />
World Oil, 225, #12, 54-65<br />
Quinlan, W.; Wood, James; Wylie, Albert<br />
2100 Phenanthrene Plant-assisted degradation of phenanthrene as headspace GC-FID<br />
in soil assessed by solid-phase microextraction (<strong>SPME</strong>)<br />
Intl J of Phytoremediation, 6, #3, 253-268<br />
Hynes, Russell K.; Farrell, Richard E.; Germida, James J.<br />
2101 Prometryn Determination of prometryn in soil by GC-MS using microwave heated GC-MS<br />
in soil microwave-assisted extraction associated with <strong>SPME</strong><br />
Fenxi Huaxue, 32, #6, 775-778<br />
Yang, Y.; Luan, W.; Luo, X. J.; Li, G. K.*<br />
2102 Fungistasis Soil volatile fungistasis and volatile fungistatic compounds Headspace GC-MS<br />
in soil Soil Biol. Biochem.,36, #12, 1997-2004<br />
Chuankun, Xu; Keqin, Zhang; Leming, Zhang; Minghe, Mo<br />
2103 BTEX Determination of benzene, toluene, ethylbenzene 75µm Carboxen GC-FID<br />
in soil and xylenes in soils by multiple headspace <strong>SPME</strong> 30min @ 30°C<br />
J. Chromatogr. A, 1035, #1, 17-22 headspace over soil<br />
Ezquerro, O; Ortiz, G; Pons, B; Tena, M suspended in water<br />
2104 Fungicides in Determination of the fungicides vinclozolin and 85µm polyacrylate GC-MS<br />
soil dicloran in soils using ultrasonic extraction coupled 5% acetone/water<br />
with <strong>SPME</strong><br />
Anal. Chim. Acta, 514, #1, 125-130<br />
Albanis, Triantafyllos A.; Lambropoulou, Dimitra A.<br />
2105 Fungicides in Determination of pyrimethanil and kresoxim-methyl 85µm polyacrylate GC-MS, SIM<br />
in soil in soils by headspace <strong>SPME</strong> and GC-MS headspace<br />
Anal. Bioanal. Chem., 379, #7-8, 1100-1105<br />
Araujo, L; Navalon, A; Prieto, A; Vilchez, J<br />
2106 Tetracyclic The moss Physcomitrella patens releases a headspace GC-MS<br />
diterpene tetracyclic diterpene<br />
from moss Plant Cell Rep., 22, #10, 780-786<br />
Kassner, H.; Schultze, W.; VonSchwartzenberg, K.<br />
2107 Chlorinated Static headspace versus head space <strong>SPME</strong> for the headspace GC-MS<br />
solvents in for the determination of volatile organochlorine<br />
compounds in landfill leachates by GC<br />
Talanta, 63, #4, 809-814<br />
Fernandez Martinez, E.; Fernandez Sanchez, M.;<br />
Florez Menendez, J.; Sanchez Uria, J.;Sanz-Medel, A.<br />
Ambient temperature, unless otherwise indicated. 156
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2108 Organics Optimization of microwave-assisted extraction GC-MS<br />
in sebum followed by <strong>SPME</strong>-GC-MS detection for the assay<br />
of some semi-volatile organic<br />
J. Chromatogr.B, 825, #1, 11-20<br />
Diaz-Vazquez, Liz; Garcia, Oscar; Marrero, I.;<br />
Rosario, Osvaldo; Velazquez, Zorangelys<br />
2109 Organic Sediment dilution method to determine sorption Immersed extract from GC<br />
chemicals in coefficients of hydrophobic organic chemicals sediment in water<br />
sediment Environ. Sci. Technol., 39. #11, 4220-4225<br />
Busser, F; Hermens, J.; Klamer, H.; Mayer, P; Ter Laak, T<br />
2110 PCDDs/PCDF Simple device for the <strong>SPME</strong> screening of 100µm PDMS GC-MS<br />
in soil polychlorodibenzo-p-dioxins and polychlorodibenzo- headspace<br />
furans in heavily contaminated soil samples. sonicated<br />
Analytica Chimica Acta, 527, #2, 157-162<br />
Chia, K. J.; Lee, T. Y.; Huang, S. D.*<br />
Air<br />
725 Organic vapors Application of <strong>SPME</strong> for determination of organic vapors in review article<br />
in gaseous matrices gaseous matrices<br />
J. Chromatogr. A, 885(2000) 405-418<br />
Namiesnik, J., Zygmunt, B., Jastrzebska, A.<br />
846 Solvent vapors Solvent vapour monitoring in work space by <strong>SPME</strong> 100µm PDMS<br />
in air J Hazardous Materials (2001) 83(1-2), 83-91<br />
Li, K.; Fingas, M.; Goldthorp, M.; Lambert, P.;<br />
Santilli, A.; Whiticar, S.<br />
75µm Carboxen/PDMS<br />
726 Volatiles Airflow Rate in the Quantitation of Volatiles in Air Streams 100µm PDMS GC-FID<br />
in air by Solid Phase Microextraction<br />
Anal. Chem 2000, 72, 3949-3955<br />
Bartelt, R., Zilkowski, B.<br />
30 min<br />
727 Volatile organic Sorbent trapping of volatile organic compounds from air 75µm Carboxen/PDMS GC-FID<br />
in air J. Chromatogr. A, 885 (2000) 120-151<br />
Harper, M.<br />
review article<br />
758 Volatile organic Air sampling with porous <strong>SPME</strong> fibers compounds 75µm Carboxen/PDMS GC-FID<br />
in air Anal. Chem. 2000, 72, 5178-5186 65µm DVB/PDMS<br />
Koziel, J., Jia, M., Pawliszyn, J. 5-10 sec air sampling<br />
754 Volatile organic Air sampling and Analysis of Volatile Organic compounds 100um PDMS GC-FID<br />
in air with Solid Phase Microextraction<br />
J. Air & wasteManage. Assoc 51: 173-184<br />
Koziel, J., Pawliszyn, J.<br />
55 BTEX Analysis of Environmental Air Samples by Solid Phase 100µm PDMS GC-MS<br />
in air microextraction and GC/Ion Trap Mass Spectrometry 3 min<br />
Environ. Sci. Technol. 29: 693-701 (1995)<br />
Chai, M., Pawliszyn, J.<br />
gas sampling<br />
226 Petroleum Estimation of Air-Coating Distribution Coefficients for <strong>SPME</strong> 100µm PDMS, GC-FID<br />
hydrocarbons Using Retention Indexes from Linear Temperature-Programmed 30µm PDMS<br />
in air Capillary Gas Chromatography. Application to the Sampling<br />
and Analysis of Total Petroleum Hydrocarbons in Air<br />
Anal. Chem. 69: 402-408 (1997)<br />
Martos, P., Saraullo, A., Pawliszyn, J.<br />
30-480 min<br />
375 Formaldehyde Sampling and Determination of Formaldehyde Using <strong>SPME</strong> 65µm PDMS/DVB GC-MS<br />
derivatives with On-Fiber Derivatization 10-150 sec<br />
in air Anal. Chem. 198, 70, 2311-2320 gas sampling<br />
Martos, P., Pawliszyn, J. PFBHA derivatives<br />
Ambient temperature, unless otherwise indicated. 157
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
110 Amines Determination of Amines in Air and Water Using Derivatization 65µm Carbowax/DVB GC-FID<br />
in air Combined with <strong>SPME</strong> 30 min<br />
J. Chromatogr. A 773: 249-260 (1997) gas sampling<br />
Pan, L., Chong, M., Pawliszyn, J. DPTFA derivatives<br />
539 Thiol and sulfides Evaluation of <strong>SPME</strong> for sampling of volatile organic sulfur 75µm Carboxen/PDMS GC-AED<br />
in air samples compounds in air for subsequent GC analysis with<br />
atomic emission detection<br />
J. Chromatogr., A 1999, 848(1+2), 305-315<br />
Haberhauer-Troyer, C., Rosenberg, E., Grasserbauer, M<br />
540 Sulfur compounds Studies on the application of <strong>SPME</strong> for analysis of volatile 100µm PDMS FPD-GC<br />
in water/ N2 & organic sulfur compounds in gaseous and liquid samples 10 min<br />
propane Chem. Anal. (Warsaw), 1999, 44(3A), 485-493<br />
Wardencki, W., Namiesnik, J.<br />
233 C5-C11 hydrocarbons, Calibration of Solid-Phase Microextraction for Air Analyses 30µm & 100µm PDMS GC-FID<br />
BTEX Based on Physical Chemical Properties of the Coating 15-450 sec<br />
in air Anal. Chem. 69: 206-215 (1997)<br />
Martos, P., Pawliszyn, J.<br />
gas sampling<br />
541 Chlorobenzen and On Calibration of <strong>SPME</strong>-GC-MS system for analysis of Optimization of sampling GC-MS<br />
p-xylene organic air contaminants using gaseous standard mixtures<br />
in air Chem. Anal. (Warsaw) (1999), 44(2), 201-213<br />
Namiesnik, J., Gorlo, D, Wolska, L, Zygmunt, B.<br />
308 Organic vapors Calibration Procedure for <strong>SPME</strong>-GC Analysis of Organic<br />
in air Vapors in Air<br />
Talanta 44 (9): 1543-1550 (1997)<br />
Gorlo, D., Wolska, L., Zygmunt, B., Namiesnik, J.<br />
756 Organic vapors Diffusion-Based Calibration for <strong>SPME</strong> Analysis of Carboxen/PDMS<br />
in air Aqueous samples DVB/PDMS<br />
Anal. Chem. 2001, 73 (1), 13-18<br />
Sukola, K., Koziel, J., Augusto, F., Pawliszyn, J.<br />
10sec. Passive sampling<br />
828 Determination of absolute amount extracted by <strong>SPME</strong><br />
different approaches under examination<br />
J.Microcolumn Separations (2000) 12(10), 550-557<br />
Tuduri, L.; Desauziers, V.; Fanlo, J. L<br />
757 Aerosols, particulate Sampling and Analysis of Airbourne Particulate matter 7um PDMS GC-MS<br />
in air and aerosols using In-Needle Trap and <strong>SPME</strong> fiber devices<br />
Anal. Chem., 2001, 73(1), 47-54<br />
Koziel, J., Odziemkowski, M., Pawliszyn, J.<br />
10 sec<br />
739 Aerosols, particulate Sampling and Raman Confocal Microspectroscopic Analysis PDMS Raman<br />
in air of Airborne Particulate Matter Using Poly(dimethylsiloxane<br />
Solid-Phase Microextraction Fibers<br />
Anal. Chem (2001) 73(13), 3131-3139<br />
Odziemkowski, M.; Koziel, J.; Irish, D.; Pawliszyn, J.<br />
574 Solvents Application of <strong>SPME</strong> to monitoring indoor air quality. 100µm PDMS GC-MS<br />
in air Fresenius'-J-Anal-Chem. Apr 1999; 363(7): 696-699 15 min<br />
Gorlo,-D; Zygmunt,-B; Dudek,-M; Jaszek,-A; Pilarczyk,-M; Namiesnik,-J<br />
542 Organic pollutants Application of <strong>SPME</strong> to monitoring indoor air quality 100µm PDMS GC-MS<br />
in air Fresenius' J. Anal. Chem. (1999), 363(7), 696-699<br />
Gorlo, D., Zygmunt, B., Dudek, M., Jaszek, A, Pilarczyk, M.,<br />
Maniesnik, J.<br />
Ambient temperature, unless otherwise indicated. 158
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
543 Organic vapors Time-Weighted Average Sampling with <strong>SPME</strong> Device; 100µm PDMS<br />
in Air Implications for Enhanced Personal Exposure Monitoring to<br />
Airborne Pollutants<br />
Anal. Chem. (1999), 71(8), 1513-1520<br />
Martos, p. Pawliszyn, J.<br />
932 Organic vapors Time-weighted average sampling of volatle and semiin<br />
Air volatile airborne organic compounds by the <strong>SPME</strong> device<br />
J. Chromatogr. A (2000), 892(1-2), 455-467<br />
Khaled, A, Pawliszyn, J.<br />
306 VOCs Application of Solid Phase Microextraction for Determination<br />
in water and air of Volatile Halogenated Hydrocarbons in Air and Water<br />
of an Indoor Swimming Pool<br />
Fresenius’ Environ. Bull. 5 (1+2): 55-60 (1996)<br />
Czerwinski, J., Zygmunt, B., Namiensnik, J.<br />
307 Pollution A Case Study of Indoor Pollution by Chinese Cooking<br />
in air Toxicol. Environ. Chem. 65 (1-4): 217-224 (1998)<br />
Benfenati, E., Pierucci, P., Niego, A.<br />
347 VOCs Nonequilbrium Quantitation of Volatiles in Air Stream by <strong>SPME</strong> 7µm, 30µm, 100µm GC-FID<br />
in air Anal. Chem. Vol. 71, January 1, 1999, pg. 92-101 PDMS<br />
Bartelt, R., Zilkowski, B. 27°C, 30 min<br />
gas sampling<br />
544 Volatiles in The sampling and analysis of volatile organic compounds<br />
atmosphere in the atmosphere<br />
React. Hudrocarbons Atmos. (1999), 119-157<br />
Boob, Academic, Coden: 67ERAQ<br />
Cao, X, Hewitt, C.<br />
851 Toluene diisocyanate Determination of gaseous toluene diisocyanate by use of 65µm DVB/PDMS LC-MS-MS<br />
solid-phase microextraction with on-fibre derivatisation. 60min.<br />
Fresenius' J. Anal. Chem. (2001), 369(6), 524-529<br />
Nilsson, U.; Batlle, R.; Colmsjo, A.<br />
dibutylamine derivative<br />
752 VOC, formaldehyde Field air analysis with <strong>SPME</strong> device varied fibers GC-FID<br />
in air Analytica Chimiera Acta 400 (1999) 153-162 1-75 min<br />
Koziel, J., Jia, M., Khaled, A., Noah, J., Pawliszyn, J. air samples<br />
753 VOC, formaldehyde Field Sampling and Determination of Formaldehyde in Indoor 65µm DVB/PDMS GC-FID<br />
in air Air with <strong>SPME</strong> and On-Fiber Derivatization 10min. Headspace<br />
Environ Sci Technol 2001, Vol 35, pg. 1481-1486<br />
Koziel, J., Noah, J., Pawliszyn, J.<br />
PFBHA Derivative<br />
755 Aromatic VOCs Design of Validation of Portable <strong>SPME</strong> devices for 65µm DVB/PDMS GC-FID<br />
in Indoor air rapid field air sampling and diffusion-based calibration<br />
Anal. Chem. 2001,73(3), 481-486<br />
Augusto, F., Koziel, J., Pawliszyn, J.<br />
30 sec air sampling<br />
759 VOCs Fast field sampling/sample preparation and quantification 65µm DVB/PDMS GC-FID<br />
in Indoor air of volatile organic compounds in indoor air by <strong>SPME</strong><br />
and portable GC<br />
Field Analytical Chem. And Tech 4(2-3): 73-84,2000<br />
Jia, M., Koziel, J., Pawliszyn, J.<br />
1min. Headspace<br />
545 Volatile organics Analysis of volatile organic compounds in the ambient air of<br />
in air Algiers by GC with a beta-cyclodextrine capillary column<br />
J. Chromatogr A, 1999, 846(1+2), 287-293<br />
Yassaa, N., Meklati, B., Cecinato, A.<br />
Ambient temperature, unless otherwise indicated. 159
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
984 VOC's in air Dynamic versus static sampling for quantitative analysis of VOC's in air.<br />
J.Chromatogr. A (2002) 963(1-2), 49-56<br />
Tuduri, L.; Desauziers, V.; Fanlo, J.L.<br />
PDMS/carboxen<br />
1062<br />
Volatile organics from<br />
steel.<br />
1070 Hydrogen cyanide in air<br />
1114<br />
Malodorous sulphur<br />
compounds in effluents<br />
1144 Smoke plumes<br />
1175 VOCs in air<br />
1187<br />
1194 PAHs<br />
1200 Benzene in air<br />
1305<br />
1313<br />
Volatile aliphatic amines<br />
in air.<br />
Chemical warfare<br />
agents<br />
Analysis of airborne volatile organic compounds of a steel industry by solid<br />
phase microextraction and gas chromatography/mass spectrometry. GC-MS<br />
Bulletin of Environmental Contamination and Toxicology (2003) 70 (5), 957-<br />
963.<br />
de Lourdes Cardeal, Z.; de Carvalho, C. R.; Parreira, F. V.<br />
Solid phase microextraction with analysis by gas chromatography to<br />
determine short term hydrogen cyanide concentrations in a field setting. GC-NPD<br />
Journal of Separation Science (2002) 25 (14), 917-921.<br />
Smith, P. A.; Sheely, M. V.; Kluchinsky, T. A, Jr.<br />
Development of a quantification method for the analysis of malodorous<br />
sulphur compounds in gaseous industrial effluents by solid-phase<br />
microextraction and gas chromatography-pulsed flame photometric<br />
detection<br />
Journal of Chromatography A (2003) 999 (1-2), 71-80.<br />
Desauziers, Valerie; Fanlo, Jean-Louis; Lestremau, Francois; Roux, Jean-<br />
Claude<br />
PDMS/carboxen GC-PFPD<br />
Discrimination of combustion fuel sources using gas chromatography-planar<br />
field asymmetric-waveform ion mobility spectrometry GC-MS<br />
Journal of Separation Science (2003) 26 (6-7), 585-593.<br />
Eiceman, Gary A.; Funk, Paul A.; Hughs, S. Edgar; Miller, Raanan A.;<br />
Nazarov, Erkijon G.; Tarassov, Alexander<br />
Potential of solid-phase microextraction fibers for the analysis of volatile<br />
organic compounds in air.<br />
Journal of Chromatographic Science (2001) 39(12), 521-529<br />
Tuduri, Ludovic; Desauziers, Valerie; Fanlo, Jean Louis<br />
Sampling and sample-preparation strategies based on solid-phase<br />
microextraction for analysis of indoor air.<br />
Trends in Analytical Chemistry (2002) 21 (12), 840-850.<br />
Koziel, J. A.; Novak, I.<br />
Screening direct analysis of PAHs in atmospheric particulate matter with<br />
<strong>SPME</strong> PDMS<br />
Talanta (2003) 60 (4), 687-693.<br />
Vaz, Jorge Moreira<br />
Determination of benzene at trace levels in air by a novel method based on<br />
solid-phase microextraction gas chromatography/mass spectrometry.<br />
Rapid Communications in Mass Spectrometry (2001) 15(24), 2404-2408<br />
Salvadori, Piero; Cuzzola, Angela; Pucci, Sergio; Raffaelli, Andrea; Saba,<br />
Alessandro<br />
Various fibers compared<br />
GC-ITMS<br />
Determination of volatile aliphatic amines in air by solid-phase<br />
microextraction coupled with gas chromatography with flame ionization<br />
detection GC-FID<br />
Journal of Chromatography, A (2003) 1016 (1), 1-9.<br />
Jastrzebska, Anna; Namiesnik, Jacek; Zygmunt, Bogdan<br />
Solid phase microextraction sampling and gas chromatography/mass<br />
spectrometry for field detection of the chemical warfare agent O-ethyl S-(2diisopropylaminoethyl)<br />
methylphosphonothiolate (VX)<br />
Journal of Separation Science (2003) 26 (12-13), 1091-1096.<br />
Betsinger, Geoffrey; Hook, Gary L.; Kimm, Gregory; Logan, Tom; Savage,<br />
Paul B.; Smith, Philip A.; Swift, Austin<br />
Various GC-MS<br />
Ambient temperature, unless otherwise indicated. 160
1334<br />
1342<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Odorant emissions from<br />
landfills.<br />
1373 Sarin in air and water.<br />
1186<br />
1141<br />
Perfume oil in household<br />
products.<br />
Characterisation of odorants emissions from landfills by <strong>SPME</strong> and GC/MS<br />
Chemosphere (2003) 51 (5), 357-368.<br />
Davoli, E.; Gangai, M.L.; Morselli, L.; Tonelli, D.<br />
DVB/Carboxen/PDMS GC/MS<br />
A simple calibration procedure for volatile organic compounds sampling in<br />
air with adsorptive solid-phase microextraction fibres.<br />
Analyst (2003) 128 (9), 1028-1032.<br />
Tuduri, L.; Desauziers, V. *; Fanlo, J. L.<br />
PDMS/CAR GC-FID<br />
Screening for sarin in air and water by solid-phase microextraction-gas<br />
chromatography-mass spectrometry. GC-MS<br />
Journal of Chromatographic Science (2001) 39(10), 420-424.<br />
Schneider, J. F.; Boparai, A. S.; Reed, L. L.<br />
Determination of perfume oil in household products by headspace solidphase<br />
microextraction and fast capillary gas chromatography. Various FCGC<br />
Chromatographia (2003) 57 (Supp), S199-S206.<br />
Bothe, F.; Dettmer, K.; Engewald, W. *<br />
VOC's from irradiated<br />
mail. Volatile organic compounds produced during irradiation of mail.<br />
AIHA Journal (2003) 64 (2), 189-195.<br />
Smith, Philip A.; Hakspiel, Shelly J.; Miller, Stephen; Sheely, Michael V.<br />
1126 Sulfur compounds<br />
1098 Ethylene oxide<br />
1447<br />
Volatile compounds in<br />
air<br />
1476 Isocyanates in air<br />
1478 Volatiles in air<br />
1479 VOCs in air<br />
Evaluation of solid-phase microextraction for time-weighted average<br />
sampling of volatile sulfur compounds at ppb concentrations Carboxen/PDMS<br />
Analytical Chemistry (2003) 75 (11), 2626-2632.<br />
Andersson, Fras Annika T.; Desauziers, Valerie; Fanlo, Jean-Louis;<br />
Lestremau, Francois<br />
Determination of low-level residual ethylene oxide by using solid-phase<br />
microextraction and gas chromatography.<br />
Journal of AOAC International (2002) 85 (6), 1205-1209.<br />
Ayoub, K.; Harris, L.; Thompson, B.<br />
Characterization of volatile effluents of livestock buildings by solid-phase<br />
microextraction<br />
Int. J. Environ. Anal. Chem. (2003) 83(10), 837-849<br />
Begnaud, Frederic; Berdague, Jean-Louis; Peres, Christophe<br />
Development of a personal isocyanate sampler based on DBA derivatization<br />
on solid-phase microextraction fibers.<br />
Fresenius' Journal of Analytical Chemistry (2001) 371(4), 514-518<br />
Nilsson, Ulrika; Batlle, Ramon; Colmsjo, Anders<br />
Traditional sampling with laboratory analysis and solid phase<br />
microextraction sampling with field gas chromatography/mass spectrometry<br />
by military industrial hygienists.<br />
AIHAJ (2002) 63(3), 284-292<br />
Thomas, Richard J.; Smith, Philip A.; Lee, Arthur P.; Kluchinsky, Timothy A.,<br />
Jr.; Erickson, Richard P.; Savage, Paul B.; Stevens, Michael; Williams,<br />
Kenneth<br />
Solid phase microextraction : Measurement of volatile organic compounds<br />
(VOCs) in Dhaka City air pollution.<br />
Journal of Environmental Science and Health Part A Toxic-Hazardous<br />
Substances & Environmental Engineering (2002) A37(7), 1223-1239<br />
Hussam, A.; Alauddin, M.; Bhattacharjee, M.; Bibi, H.; Chowdhury, D.; Khan,<br />
A. H.; Sultana, S.<br />
Ambient temperature, unless otherwise indicated. 161<br />
75um Carboxen PDMS GC-MS<br />
65um PDMS/DVB, dibutylamine<br />
(DBA) derivative<br />
HPLC-MS<br />
GC-MS
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1523 Glutaraldehyde in air<br />
1524<br />
Valeraldehyde in air<br />
(TWA)<br />
Gas chromatographic determination of glutaraldehyde in the workplace<br />
atmosphere after derivatization with O-(2,3,4,5,6pentafluorobenzyl)hydroxylamine<br />
on a solid-phase microextraction fibre.<br />
Journal of Chromatography A (2002) 955(1), 117-124<br />
Pieraccini, Giuseppe; Bartolucci, Gianluca; Boccalon, Pierpaolo; Dugheri,<br />
Stefano; Focardi, Leonardo; Pacenti, Marco<br />
Time-weighted average sampling of airborne n-valeraldehyde by a solidphase<br />
microextraction device.<br />
Journal of Chromatography A (2002) 954(1-2), 191-198<br />
Tsai, S.-W.; Chang, T.-A.<br />
1543 Nicotine in air Trace analysis of nicotine in indoor air by a <strong>SPME</strong> method.<br />
Bulletin of Environmental Contamination and Toxicology (2002) 68(4), 485-<br />
489<br />
Shuokui, H.; Huali, Y.; Jianfang, F.; Songting, G.<br />
1528<br />
1547<br />
VOCs in air (dynamic<br />
sampling)<br />
Volatiles in air (passive<br />
sampling)<br />
1388 Perfumes<br />
Dynamic air sampling of volatile organic compounds using solid phase<br />
microextraction<br />
Journal of Environmental Science and Health Part B Pesticides Food<br />
Contaminants and Agricultural Wastes (2002) B37(4) 365-378<br />
Razote, Edna; Chobpattana, Wannee; Jeon, Ike; Maghirang, Ronaldo<br />
Evaluation of indoor exposition to benzene, toluene, ethylbenzene, xylene,<br />
and styrene by passive sampling with a solid-phase microextraction device.<br />
Journal of Chromatographic Science (2002) 40(3), 122-126<br />
Cardeal, Zenilda de L.; de Carvalho, Ciomara R.; Parreira, Fabricio V.<br />
On-fiber derivatization with<br />
PFBHA<br />
65um DVB PDMS, on-fiber<br />
derivatization with PFBHA<br />
GC<br />
GC-FID<br />
75um Carboxen PDMS GC-MS<br />
100um PDMS, 65um DVB<br />
PDMS<br />
Atmospheric lifetimes and fates of selected fragrance materials and volatile<br />
model compounds.<br />
Environmental Science and Technology (2001) 35(18), 3595-3600.<br />
Aschmann, S. M.; Arey, J.; Atkinson, R. *; Simonich, S. L<br />
PDMS GC-MS<br />
2111 Hydrocarbons Measuring the effect of photocatalytic purifiers on 15 min sampling GC<br />
in air indoor air hydrocarbons and carbonyl pollutants<br />
J. Air Waste Manage. Assoc., 55, #1, 88-96<br />
Disdier, Jean; Mas, Denis; Pichat, Pierre<br />
2112 BTEX Air sampling of aromatic hydrocarbons in the 100µm PDMS GC-FID, GC-MS<br />
in air presence of ozone by <strong>SPME</strong> headspace<br />
J Chromatogr A, 1025, #1, 57-62<br />
Xiong, G; Koziel, J.; Pawliszyn, J.<br />
2113 PCBs in Sampling and analysis of PCBs in indoor air by headspace GC-MS<br />
indoor air sorbent enrichment followed by headspace<br />
<strong>SPME</strong> and GC-MS<br />
J. Chromatogr. A,1072, #1, 99-106<br />
Ares, S; Barro, R; Cela, R; Garcia-Jares, C; Llompart, M<br />
2114 Organo- Air sampling of organophosphate triesters using 100µm PDMS GC<br />
phosphate <strong>SPME</strong> under non-equilibrium conditions. 1 hr. sampling<br />
triesters in Anal & Bioanalytical Chem, 378, #7, 1847-1853<br />
air Isetun, S.; Nilsson, U.; Colmsjo, A.; Johansson, R.<br />
2115 Organo- Evaluation of <strong>SPME</strong> w/ PDMS for air sampling of 100µm PDMS GC<br />
phosphate gaseous organophosphate flame-retardants 8 hrs. sampling<br />
triesters in and plasticizers<br />
Air Anal & Bioanalytical Chem, 380, #2, 319-324<br />
Isetun, Sindra; Nilsson, Ulrika; Colmsjo, Anders<br />
2116 Volatile Investigation of artefact formation during analysis 75µm Carboxen GC<br />
sulfur of volatile sulfur compounds "in air" using <strong>SPME</strong> direct air sample<br />
compounds Chromatographiam 59, #9-10, 607-613<br />
in air Lestremau, F.; Andersson, F.; Desauziers, V. *<br />
Ambient temperature, unless otherwise indicated. 162
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2117 BTEX in Determination of benzene, toluene, ethylbenzene and 75µm Carboxen GC-MS<br />
air xylenes in air by <strong>SPME</strong>-GC-MS 30 min sampling<br />
Analytical & Bioanalytical Chem, 380, #5-6, 824-830<br />
Tumbiolo, S.; Gal, J. -F.*; Maria, P. -C.; Zerbinati, O.<br />
2118 Acetic acid Use of <strong>SPME</strong> for the detection of acetic acid by ion-trap GC-ITMS<br />
in air GC-MS and application to indoor levels in museums<br />
J. Chromatogr. A, 1067, #1-2, 331-336<br />
Godoi, Ana F.L.; Van Grieken, Rene; Van Vaeck, Luc<br />
2119 Chloro- Development of a sensitive methodology for the 65µm PDMS-DVB GC-MS<br />
benzenes analysis of chlorobenzenes in air bycombination of 65µm CW GC-ECD<br />
in air SPE and headspace <strong>SPME</strong> headspace<br />
J. Chromatogr. A, 1045, #1-2, 189-196<br />
Ares,S; Barro,R; Cela,R; Garcia-Jares,C; Llompart,M<br />
2120 Sarin in Air Dynamic <strong>SPME</strong> for sampling of airborne sarin with Direct sampling of air GC-MS<br />
GC-MS for rapid field detection and quantification<br />
J. Sep. Sci., 27,#12, 1017-1022<br />
Hook, G.; Lepage, C; Miller, S.; Smith, P.<br />
2121 Sulfur compd Analysis of sulfur-containing compounds in ambient air direct sampling GC-FPD<br />
in air using <strong>SPME</strong>-GC with pulsed FPD<br />
Int. J. Environ. Anal. Chem., 84, #10, 749-760<br />
Li, Kwong-Chi; Shooter, David<br />
2122 Aniline Determination of aniline in silica gel sorbent by one-step 65µm PDMS-DVB GC-FID<br />
in air in situ microwave assisted desorption coupled to headspace<br />
headspace <strong>SPME</strong> and GC-FID 3 min extraction<br />
Talanta, 64, #3, 650-654<br />
Jen, Jen-Fon; Shih, Ton-Sheng; Yan, Cheing-Tong<br />
2123 Popylene Propylene glycol vapor contamination in controlled headspace MD-GC-MS<br />
glycol in environment growth chambers: Toxicity to corn and<br />
air soybean plants<br />
J. Environ. Sci. Health Part B, 40, #3, 443-448<br />
McConnell, Laura; Niu, Genhua; Reddy, Vangimalla R.<br />
Theory / Technique<br />
856 Volatiles An automated method for the determination of some volatile GC-ECD<br />
in water organic compounds in water samples after extraction by<br />
<strong>SPME</strong> and CGC-ECD analysis<br />
Rev. Port. Farm (2000) 50(4) 141-149<br />
Cunha, E.; Goncalves, C.; Alpendrurada, M. F. (Portuguese)<br />
2 VOCs, BTEX, PAHs Solid Phase MicroExtraction with Thermal Desorption Using 56µm PDMS GC-FID,<br />
in water Fused Silica Optical Fibers 2 min GC-ECD<br />
Anal. Chem. 62: 2145-2148 (1990) stirring<br />
Arthur, C., Pawliszyn, J. salt added<br />
5 BTEX Solid Phase MicroExtraction: An Attractive Alternative 100µm PDMS GC-FID<br />
in water Environmental Lab. 11, Dec/Jan 1992/1993 pp 10-15 14 min<br />
Arthur, C., Killam, L., Chai, M., Buchholdz, K., Potter, D., stirring<br />
Zhang, Z., Pawliszyn, J. salt added<br />
9 BTEX Automation and Optimization of Solid Phase MicroExtraction 56µm & 100µm PDMS GC-FID<br />
in water Anal. Chem. 64: 1960-1966 (1992) 2-40 min<br />
Arthur, C., Killam, L., Buchholz, K., Pawliszyn, J. stirring, salt added<br />
820 Jasmine plant A versatile Robotic Arm for Static headspace 85µm Polyacrylate GC-MSN<br />
beer sampling with <strong>SPME</strong> 30min.<br />
LC-GC Europe, April 2001, 215-222<br />
Pham-Tuan, H., Vercammen, J., Sandara, P.<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 163
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
12 BTEX Solventless Injection Technique for Microcolumn Separations 100µm PDMS GC-MS<br />
in water J. Microcolumn Sep. 5: 51-56 (1993)<br />
Arthur, C., Chai, M., Pawliszyn, J.<br />
13 BTEX, PAHs Headspace Solid Phase MicroExtraction 56µm PDMS GC-FID<br />
in water Anal. Chem. 65(14): 1843-1852 (1993) 1-5 min<br />
Zhang, Z., Pawliszyn, J. headspace<br />
16 Nitroaromatics Practical Use of Automated Solid Phase Extraction 100µm PDMS GC-FID<br />
in water Amer. Lab. Nov. Vol. 25,1993, p18-24 1-20 min<br />
Berg, J. immersion<br />
17 Toluene On-Line Monitoring of Flowing Samples Using <strong>SPME</strong>-GC 56µm PDMS GC-FID<br />
in water Anal. Chim. Acta 284: 265-273 (1993) 20 min<br />
Motlagh, S., Pawliszyn, J. immersion, stirring<br />
21 Phenols Optimization of Solid Phase MicroExtraction (<strong>SPME</strong>) Conditions 85µm polyacrylate GC-MS<br />
in water and air for Phenol Analysis 40 min<br />
Anal. Chem. 66: 160-167 (1994) immersion & headspace<br />
Buchholz, K., Pawliszyn, J. pH 2, salt added<br />
acetate derivatives<br />
204 Phenols Determination of Phenols by Solid-Phase Microextraction<br />
J. Chromatogr. A 767: 171-175 (1997)<br />
Bartak, P., Cap, L.<br />
391 Phenols, PAHs <strong>SPME</strong> for Determining the Binding State of Organic Pollutants 7µm PDMS GC-MS<br />
in water in Contaminated Water Rich in Hujic Organic Matter 50°C, 90-180 min<br />
J. Chromatogr. A, 816 (1998) 159-167 headspace<br />
Porschamann, J., Kopinke, F., Pawliszyn, J. stirring<br />
24 PAHs Silica-Fiber microextraction for Laser Desorption Ion Trap Trimethlysilyl coated fiber MS<br />
in soil and water Mass Spectrometry<br />
Anal. Chem. 66: 1897-1901 (1994)<br />
Cisper, M., Earl, W., Nogar, N., Hemberger, P.<br />
3 min<br />
27 PAHs Solid Phase microextraction Coupled to HPLC 15µm PDMS HPLC-UV<br />
in water Anal. Chem. 67: 2530-2533 (1995) 6-60 min<br />
Chen, J., Pawliszyn, J. immersion<br />
222 Potential <strong>Applications</strong> of Coupled <strong>SPME</strong>-HPLC<br />
LaborPraxis 20 (11): 66-68, 71 (1996)<br />
Haag, I.<br />
HPLC<br />
33 Fatty acids, PAHs, Solvent-free Sample Introduction for Supercritical Fluid 15µm PDMS, GC-FID<br />
pesticides in Chromatography Using Polymer Coated Fibers 85µm polyacrylate<br />
methanol/water J. Microcolumn Res. 42: 1925-1930 (1994) 5 min<br />
Hirat, Y., Pawliszyn, J. immersion<br />
35 BTEX Headspace <strong>SPME</strong> vs. Purge & Trap for the Determination of 100µm PDMS GC-FID<br />
in water Substituted Benzenes in Water 40°C, 50 min<br />
J. Chromatogr. Sci. 32(8): 317-322 (1994) headspace<br />
MacGillevra, B. stirring, salt<br />
38 BTEX Quantitative Extraction Using an Internally Cooled Solid 50µm PDMS GC-MS<br />
in water Phase MicroExtraction Device 22-80°C, 2-5 min<br />
Anal. Chem. 67(1): 34-43 (1995)<br />
Zang, Z., Pawliszyn, J.<br />
headspace<br />
Ambient temperature, unless otherwise indicated. 164
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
43 Organophosphorus Element-Selective Detection of Pesticides by Gas 100µm PDMS GC-AED<br />
pesticides Chromatography Atomic Emission Detection 20 min<br />
in water and Solid Phase MicroExtraction<br />
J. Chromatogr. 683: 175-183 (1994)<br />
Eisert, R., Levser, K., Winsch, G.<br />
immersion<br />
44 BTEX Solid-Phase Microextraction: A Solvent-Free Alternative for polyacrylate, PDMS GC-FID<br />
in water for Sample Preparation<br />
Anal. Chem. 66(17): 844A-853A (1994)<br />
Zang, Z., Yang, M., Pawliszyn, J.<br />
immersion, salt<br />
45 BTEX New Solvent-Free Sample Preparation Techniques Various fibers and GC-FID,E1858<br />
in water and air ES &T 28 (13): 569A-574A (1994)<br />
Boyd-Boland, A., Chai, M., Luo, Y. Zhand, Z. Yang., M.,<br />
Pawliszyn, J.<br />
extraction conditions GC-MS<br />
213 A New Separation and Extraction Method -- Solid-Phase<br />
Microextraction<br />
Sepu (Chinese) 15 (2): 118-119 (1997)<br />
Liu, J.<br />
56 <strong>SPME</strong><br />
GIT Fachz. Lab. 39: 325-362 (1995)<br />
Popp, P.<br />
57 BTEX Sample Introduction Approaches for Solid Phase<br />
in water MicroExtraction-Rapid GC<br />
Anal. Chem. 67: 3265-3274 (1995)<br />
Gorecki, T., Pawliszyn, J.<br />
GC-FID<br />
58 BTEX Solid Phase MicroExtraction/Isothermal GC for Rapid 15µm PDMS GC-FID<br />
in water Analysis of Complex Organic Samples 2 min<br />
J.High Res.Chromatogr. 18 (2): 161-166 (1995) headspace<br />
Gorecki, T., Pawliszyn, J. stirring<br />
59 Semivolatiles <strong>SPME</strong> as a Method for Estimating the Octanol Water Partition 85µm polyacrylate GC-FID<br />
in water Coefficient min to 20 hr<br />
Anal. Chem. 68: 130-133 (1996)<br />
Dean, J., Tomlinson, W., Makovskaya, V., Cumming, R.,<br />
Hetheridge, M., Comber, M.<br />
immersion, stirring<br />
546 PAHs Solubility and partitioning studies with PAHs using an 100µm <strong>SPME</strong> GC-MS<br />
in water and optimized <strong>SPME</strong> procedure stirred<br />
octanol-water Fresenius' J. Anal. Chem. (1999), 363(4), 426-428<br />
Paschke, A., Popp, P., Schueuermann, G.<br />
728 PAHs Determination of PAHs in waste water by off-line coupling 100µm PDMS HPLC<br />
in waste water <strong>SPME</strong> with column liquid chromatography<br />
J. Chjromtogr. A, 897(2000) 153-159<br />
Popp, P., Bauer, C., Moder, M., Paschke, A.<br />
60 min fluorescence<br />
547 Pesticides in Extracted amounts by <strong>SPME</strong>: a realistic approach to the<br />
water partition coefficient K.<br />
J. Chromtogr. Sci. 1999, 37(8), 277-282<br />
Urruty, L., Montury, M<br />
548 Volatiles Determination of Henry's law coefficient by combination of 100µm PDMS GC-FID<br />
in water the equilibrium partitioning in closed systems and<br />
<strong>SPME</strong> techniques<br />
J. Chromatogr, A., (1999), 830(2), 353-363<br />
Dewulf, J., Van Langenhove, H., Everaert, P<br />
30 min @ varied temp.<br />
Ambient temperature, unless otherwise indicated. 165
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
237 Organics in Partitioning of Organic Chemicals to Polyacrylate-Coated 85µm polyacrylate GC-FID, -ECD<br />
water and air Solid-Phase Microextraction Fibers: Kinetic Behavior and immersion GC-MS<br />
Quantitative Structure-Property Relationships<br />
Anal. Chem. 68: 4458-4462 (1996)<br />
Vaes, W., Hamwik, C., Ramos, E., Verhaar, H., Hermens, J.<br />
stirring<br />
84 Solid Phase Microextracting Using Fused-Silica Fibers Coated<br />
with Graphitized Carbon Black<br />
Chromatographia 41: 678-684 (1995)<br />
Mangani, R., Cenciarini, R.<br />
88 Overview New Direction in Sample Preparation for Analysis of<br />
Organic Compounds<br />
Trends Anal. Chem. 14 (3): 113-122 (1995)<br />
Pawliszyn, J.<br />
Multiple applications<br />
121 Eugenol, Solid Phase Microextraction for Quantitative Analysis in 85µm polyacrylate GC-MS<br />
2,4-dimethylphenol, Nonequilibrium Situations 1-160 min<br />
2-phenylethanol Anal. Chem. 69: 1230-1236 (1997) immersion, stirring<br />
in water Ali, J. salt added<br />
360 2-Octanol <strong>SPME</strong> in Headspace Analysis, Dynamics in Non-Steady State 85µm polyacrylate, GC-MS<br />
in water Mass Transfer 100µm PDMS<br />
Anal. Chem., 70: 4822-4826, (1998)<br />
Ali, J.<br />
headspace<br />
214 Strawberries Solid-Phase Microextraction: Artifact Formation and Its 85µm polyacrylate GC-MS<br />
and apples Avoidance 30 sec<br />
in fruit homogenate Chromatographia 46: 63-66 (1997)<br />
Verhoeven, H., Beuerle, T., Schwab, W.<br />
immersion<br />
139 McReynolds probes Studying Activity Coefficients of Probe Solutes in Selected 7µm PDMS GC-FID<br />
in methanol Liquid Polymer Coatings Using <strong>SPME</strong> 25-100°C, 15 min<br />
J. Phys. Chem. 100: 17648 (1996)<br />
Zhang, Z., Pawliszyn, J.<br />
headspace<br />
729 Lidocane Multiple solid phase microextraction 100µm PDMS HPLC<br />
from water J. Chromatogr. A. (2000) 878, 27-33<br />
Koster, E., de Jong, G.<br />
45min<br />
939 Fibers coated with molecularly imprinted polymers for <strong>SPME</strong><br />
Anal. Chem (2001) 73(13) 3140-3145<br />
Koster, E; Crescenzi, C; den Hoedt, W; Ensing, K; de Jong, G<br />
579 BTEX and solvents Study of polymer coatings for solid-phase microextraction 88µm PDMS<br />
in water Sepu. Jan 1999; 17(1): 10-13<br />
Zhang,-DN; Wu,-CY; Ai,-F<br />
148 Maillard reaction A Study of the Behavior of Maillard Reaction Products 100µm PDMS GC-MS<br />
products Analyzed by <strong>SPME</strong>-GC-Mass Selective Detection 5 min<br />
in water J. Chromatogr. Sci. 34: 213 (1996) immersion<br />
Coleman III, W. stirring<br />
207 Alkyl & alkoxy aroma & A Study of the Behavior of Polar and Nonpolar <strong>SPME</strong> Fibers 100µm PDMS GC-MSD<br />
flavor compounds J. Chromatogr. Sci. 35 (6): 245-258 (1997) 5 min<br />
in water Coleman, W. immersion &<br />
headspace<br />
stirring, salt added<br />
Ambient temperature, unless otherwise indicated. 166
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
730 Inorganic anions <strong>SPME</strong> of inorganic anions based on polypyrrole film Polypyrrole film Ion Chrom.<br />
in water Analyst (Cambridge, UK), 2000, 125(3), 391-394<br />
Wu, J., Yu, Z, Lord, H., Pawliszyn, J.<br />
764 Volatile organics Preparation and appplication of polypyrrole films in <strong>SPME</strong> Polypyrrole film In-tube GC-FID<br />
PAHs, amines J. Chromatogr. A (2001) 909(1) 37-52 20min. LC-UV<br />
in water/air mixture Wu, J., Pawliszyn, J. headspave<br />
163 Mercury, <strong>SPME</strong> Combined with Electrochemistry 10µm gold on GC-MS<br />
mercury compounds Anal. Commun. 33(10): 361-364 (1996) carbon steel electrode<br />
in water Guo, F., Gorecki, T., Irish, D., Pawliszyn, J. 5 min<br />
gas phase sampling<br />
stirring, KNO3 added<br />
182 Use of <strong>SPME</strong> with Ion Mobility Spectrometry<br />
Anal. Lett. 30 (7): 20-22 (1997)<br />
Orzechowsa, G., Poziomek, E., Tersol, V.<br />
GC-MS<br />
228 VOCs <strong>SPME</strong> of Volatile Organic Compounds. Estimation of the 100µm PDMS GC-FID<br />
in seawater Sorption Equilibrium from the Kovats Index Effect of Salinity 45 min<br />
and Humic Acids and the Study of the Kinetics by the immersion<br />
Development of an "Agitated/Static Layer" Model stirring<br />
J. Chromatogr. A 761: 205-217 (1997)<br />
Dewulf, J., Everaert, M., Van-Langenhove, H.<br />
salt added<br />
840 Squalene Determination of squalene in seawater by <strong>SPME</strong>-GC-MS and 100µm PDMS GC-MS<br />
in seawater the concentration variation of squalene in redtide seawater. 45 min<br />
Fenxi Huaxue (2000) 28(11) 1326-1330 immersion<br />
Zhao, M. Q.; Li, G. K.; Luan, T. G.; Zhang, Z. X. stirring<br />
165 Triazines, organic Development of a Prototype System for Quasi-Continuous 85µm polyacrylate GC-ECD, -FID<br />
pesticides Analysis of Organic Contaminants in Surface or Sewage 10 min<br />
in sewage water Water Based on In-Line Coupling of <strong>SPME</strong> to GC<br />
J. Chromatogr. A 737 (1): 59-65 (1996)<br />
Eisert, R., Levsen, K.<br />
300mL/min flow<br />
166 Pesticides Design of Automated <strong>SPME</strong> for Trace Analysis of 100µm PDMS GC-FID<br />
in water Organic Compounds in Aqueous Samples 30 min<br />
J. Chromatogr. A 776: 293-303 (1997)<br />
Eisert, R., Pawliszyn, J.<br />
stirring<br />
184 BTEX, Sample Preparation for GC with SPE & <strong>SPME</strong> 100µm PDMS GC-FID<br />
pesticides Chromatogr. 37: 205-236 (1997) 2-20 min<br />
in water Penton, Z. immersion, stirring<br />
salt added<br />
236 Aromatic Porous-Layer Solid-Phase Microextraction Using Silica 30µm C8 silica bonded GC-FID<br />
hydrocarbons Bonded Phase metal fiber<br />
in water Anal. Chem. 69: 190-195 (1997) 20 min<br />
Liu, Y., Shen, Y., Lee, M. stirring<br />
189 PAHs in High Temperature Water Extraction Combined with <strong>SPME</strong> 30µm PDMS GC-FID<br />
water extract Anal. Commun. 33: 421-424 (1996) 70 min<br />
Daimon, H., Pawliszyn, J. stirring<br />
220 C6-C11 hydrocarbons Initial Bandwidth Resulting from Splitless and Solid-Phase 100µm PDMS GC-FID<br />
in water Microextraction Gas Chromatographic Injections 10 min<br />
J. High Res. Chromatogr. 20 (2): 77-80 (1997) immersion<br />
Snow, N., Okeyo, P. stirring<br />
Ambient temperature, unless otherwise indicated. 167
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
138 PAHs in Optimizing Split/Splitless Injection Port Parameters for <strong>SPME</strong> 7µm & 100µm PDMS GC-FID<br />
water J. Chromatogr. A 740 (1): 139-145 (1996) 5 hr<br />
Langenfeld, J., Hawthorne, S., Miller, D. immersion, stirring<br />
211 Nitro musk compounds Nitro Musks in Cosmetic Products: Determination by 100µm PDMS GC-AID<br />
in cosmetic products Headspace <strong>SPME</strong> and GC with Atomic Emission Detection: 1-60 min<br />
Dynamics of Organic Compound Extraction from Water,<br />
Using Liquid-Coated Fused Silica Fibers<br />
Chromatogrphia 45; 138-144 (1997)<br />
Struppe, C., Schaefer, B., Engewald, W.<br />
headspace<br />
243 Dynamics of Organic Compound Extraction from Water, Using<br />
Liquid-Coated Fused Silica Fibers<br />
Anal. Chem. 66: 1186-1199 (1994)<br />
Arthur, C., Pawliszyn, J.<br />
437 Review <strong>SPME</strong> and Its Utilization in Environmental Analysis<br />
Chem. Listy (1998), 92(8), 633-642<br />
Sedlakova, J., Matisova, E., Slezackova, M.<br />
549 Review of 52 refs. Trends in <strong>SPME</strong> for determining organic pollutants in<br />
environmental samples<br />
Trends Anal. Chem. 1999, 18(8), 557-568<br />
Penalver, A., Pocurull, E., Borrull, F., Marce, R.<br />
Varied<br />
550 Proceeding of Extech Advances in Extraction Technology: A report from Extech '99<br />
LC-GC Current Trends and development in Sample Prep,<br />
Sept. 1999, Vol. 17., No. 90, S25-S30<br />
Lord, H., Pawliszyn, J.<br />
Varied<br />
551 Overview of <strong>SPME</strong> Sample Preparation for GC with SPE and <strong>SPME</strong><br />
Advances in Chromatography, Vol. 37, 1966, 205-236<br />
Book chapter by M. Dekker, New York, 1996<br />
Penton, Z.<br />
244 Solid Phase Microextraction -- A Unique Tool for<br />
Chemical Measurements<br />
Can. J. Chem. 74: 1297-1308 (1996)<br />
Gorecki, T., Boyd-Boland, A., Zhang, Z., Pawliszyn, J.<br />
245 Solvent Free Sample Preparation Techniques Based on Fiber<br />
and Polymer Technologies<br />
Environ. Sci. Technol. 28: 569A-574A (1994)<br />
Boyd-Boland, A., Chai, M., Luo, Y., Zhang, Z., Yang, M.,<br />
Gorecki, T., Pawliszyn, J.<br />
246 BTEX, Solid Phase Microextraction 100µm PDMS GC-FID, -ECD<br />
pesticides Tech. Aquat. Toxicol. 459-477 (1996) 10-30 min<br />
in water Webster, G., Sarna, L., Graham, K. immersion<br />
stirring<br />
247 Solid Phase Microextraction Technique for Gas overview<br />
Chromatography<br />
Huaxue 54 (3): 119 (1996)<br />
Huang, S.<br />
article<br />
248 BTEX, Sample Preparation for Gas Chromatography with SPE 100µm PDMS GC-FID<br />
pesticides and <strong>SPME</strong> 2-20 min<br />
in water Adv. Chromatogr. (N.Y.) 37: 205-236 (1997) immersion, stirring<br />
Penton, Z. salt added<br />
Ambient temperature, unless otherwise indicated. 168
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
249 BTEX, Solid Phase Microextraction-<strong>SPME</strong>, State of the Art 100µm PDMS GC-FID<br />
pesticides Chromatography Kaiser, O. (Ed.) Incom, Dusseldorf, 2-20 min<br />
in water pp153-166 (1997) immersion, stirring<br />
Kern, H., Penton, Z. salt added<br />
250 Reference book Solid Phase Microextraction: Theory and Practice various fibers<br />
VCH, New York, 275pp (1997)<br />
Pawliszyn, J.<br />
and conditions<br />
731 Reference book <strong>Applications</strong> of Solid Phase Microextraction<br />
Edited by Janusz Pawliszyn<br />
RSC Chromatography Monographs<br />
35 applications described<br />
732 Overview Theory of solid phase microextraction<br />
J. Chromatogr. Sci. (2000), 38(7), 270-278<br />
Pawliszyn, J.<br />
733 Researchers are giving <strong>SPME</strong> a second look 30:50 Carboxen/DVB/PDMS GC-FID<br />
R&D Magazine, February 1999, 44-45 headspace<br />
251 Overview Sample Preparation and Solid-Phase Extraction no fibers or<br />
LC-GC 15: 1106, 1108, 1110-1113, 1116-1117 (1997)<br />
Majors, R., Raynie, D.<br />
conditions shown<br />
252 Formaldehyde, Recent Advances in Solid Phase Microextraction 65µm PDMS/DVB, GC-MS,<br />
surfactants in LC-GC May Supplement, ppS41-S46 (1998) Carbowax/TPR fiber HPLC-UV<br />
air and water Lord, H., Pawliszyn, J. varied conditions<br />
255 Thiophenes Application of <strong>SPME</strong>/GC-MS to Characterize Metabolites in 85µm polyacrylate GC-MS<br />
in water the Biodesulfurization of Organosulfur Model Compounds 20 min<br />
in Gitumen immersion<br />
Environ. Sci. Technol. 32 (3): 421-426 (1998)<br />
MacPherson, T., et al.<br />
pH 2<br />
256 Construction of an Interface for <strong>SPME</strong>-PC-SFC<br />
J. High Resolut. Chromatogr. 34 (10): 275-277 (1997)<br />
Medvedovici, A., Sandar, P.<br />
257 Phenylurea pesticides Automated In-Tube <strong>SPME</strong> Coupled to HPLC Omegawax 250 HPLC-UV,<br />
in water Anal. Chem., Vol. 69, No. 16, August 15, 1997, 3140-3147<br />
Eisert, R., Pawliszyn, J.<br />
25µL, 10 flush cycles 245nm<br />
258 PAHs Effect of Heating the Interface on Chromatographic 100µm PDMS HPLC-UV,<br />
in water Performance of <strong>SPME</strong> Coupled to HPLC 60 min 254nm<br />
Anal. Commun. 34 (11): 365-369 (1997) immersion<br />
Daimon, H., Pawliszyn, J. heat desorb 22-180°C<br />
259 PAHs Effect of Heating the Interface on Chromatographic 100µm PDMS HPLC-UV,<br />
in water Performance of <strong>SPME</strong> Coupled to HPLC 60 min 254nm<br />
Analyst (Cambridge) 122 (11): 365-369 (1997) immersion<br />
Daimon, H., Pawliszyn, J. heat desorb 22-180°C<br />
260 Hg (II) ion <strong>SPME</strong> Combined with HPLC for the Determination of Metal Ions polypropylene hallow HPLC-UV,<br />
in water Using Crown Ether as Selective Extracting Reagent fiber, 30 min 254nm<br />
J. Microcolumn Sep. 167-173 (1998) immersion<br />
Jia, C., Luo, Y., Pawliszyn, J. derivative:<br />
dibenzo-18-crown-6<br />
734 Dopamine in Analysis of biogenic amines by <strong>SPME</strong> and HPLC with Carbowax-TPR HPLC<br />
biological matrix electrochemical detection<br />
J. Chromatogr. A, (2000) 873, 396<br />
Auger, J., Boulay, R., Jaillais, B., Delion-Vancassel, S.<br />
electrochem<br />
Ambient temperature, unless otherwise indicated. 169
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
368 Aromatic amines <strong>SPME</strong> Coupled with HPLC for the Determination of Aromatic Carbowax/TPR, HPLC-UV,<br />
in wastewater Amines PDMS/DVB 280nm<br />
Anal. Chem., Vol. 71, No. 2, January 15, 1999, 310-316 30 min or 20 min<br />
Wu, Y., Huang, S. Na2SO4 buffer added<br />
407 Phenylurea pesticides Automated In-Tube <strong>SPME</strong> Coupled to HPLC Omegawax 250 UV, 245nm<br />
in water Anal. Chem., Vol. 69, No. 16, August 15, 1997, 3141-3147<br />
Eisert, R., Pawliszyn, J.<br />
25uL, 10 flush cycles<br />
735 Carbamate Automated in-tube <strong>SPME</strong>-HPLC for Carbamate Intube capillaries HPLC<br />
pesticides pesticide analysis<br />
in water J. Chromatogr. A, (2000) 873(1), 137-147<br />
Gou, Y, Eisert, R., Pawliszyn, J.<br />
736 Carbamate In-tube <strong>SPME</strong> coupled to capillary LC for Carbamate Intube capillaries HPLC<br />
pesticides analysis in water samples<br />
in water Anal. Chem. 2000, 72(13), 2774-2779<br />
Gou, Y., Pawliszyn, J.<br />
737 Carbamate On-line coupling of in-tube <strong>SPME</strong> to HPLC for analysis Intube capillaries HPLC<br />
pesticides of carbamates in water samples: comparison of<br />
in water two commercially available autosampler<br />
J. Microcolumn Sep. (2000), 12(3), 125-134<br />
Gou, Y., Tragas, C., Lord, H., Pawliszyn, J.<br />
789 Development of effective sample pretreatment by in-tube<br />
<strong>SPME</strong> and its application<br />
Chromatography (2000) 21(4), 276-279<br />
Kataoka, Hiroyuki; Wu, Jingcun; Lord, Heather L.; Pawliszyn, J.<br />
Intube capillaries<br />
810 Sample preparation technique using fiber-in-tube <strong>SPME</strong><br />
Chromatography (2000), 21(4), 284-285<br />
Jinno, K; Kawazoe, M; Saito, Y; Hayashida, M<br />
571 175 references On-line combination of aqueous-sample preparation and various references of<br />
review capillary gas chromatography<br />
J-Chromatogr,-A. 21 May 1999; 842(1-2): 391-426<br />
Louter,-AJH; Vreuls,-RJJ; Brinkman,-UAT<br />
<strong>SPME</strong> & SPE<br />
552 Solid phase microextraction turned inside out<br />
Che. Aust. 1999, 66(6), 9-11<br />
Tan, D., Marriott, P., Lee,H., Morrison, P.<br />
Intube capillaries<br />
412 Solventless Analytical Separation Method --<br />
<strong>SPME</strong>/Microcolumn LC<br />
Chromatography (1998), 19(2), 6063<br />
Jinno, K.<br />
HPLC<br />
261 Fatty acid Derivatization/<strong>SPME</strong>: New Approach to Polar Analytes 85µm polyacrylate GC-FID<br />
methyl esters Anal. Chem. 69(2): 196-205 (1997) 2 hr<br />
in air and water Pan, L., Pawliszyn, J. headspace, pH 6<br />
derivative: 1-pyrenyldiazomethane<br />
819 Formaldehyde Solid phase analytical derivatization: enhancement of<br />
sensitivity and selctivity of analysis<br />
J.Chromatogr. A., 843, 19-27<br />
Rosenfeld, J.<br />
On-fiber derivatization<br />
Ambient temperature, unless otherwise indicated. 170
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
553 9 references New Gas chromatographic approach to polar compounds<br />
by derivatization-<strong>SPME</strong><br />
Bunseki, 1999 (7), 595-597<br />
Takauchi, M.<br />
Japanese<br />
262 Alcohol and ketones Strategies for the Analysis of Polar Solvents in Liquid Matrixes Nafion fiber GC-ECD<br />
in water Anal. Chem. 70 (1): 19-27 (1998) 10 min<br />
Gorecki, T., Martos, P., Pawliszyn, J. headspace<br />
stirring<br />
738 Phenanthrene, PCB Absorption of hydrophobic compounds into the 7µm PDMS GC-MS<br />
pentachlorobenzene poly(dimethylsiloxane) coating of <strong>SPME</strong> fibers: high 10min<br />
in water partition coefficients and fluorescence<br />
microscopy images<br />
Anal. Chem. (2000) 72(3), 459-464<br />
Mayer, P., Vaes,W., Hermens, J.<br />
739 Hydrophobic Nonequilibrium <strong>SPME</strong> for determination of the freely 7µm PDMS GC-ECD<br />
compounds (PCBs) dissolved concentration of hydrophobic organic 0.5-60min @ 37°C<br />
in water compounds: matrix effects and limitations<br />
Anal. Chem 2000, 72(13), 2802-2808<br />
Oomen, A., Mayer, P., Tolls, J.<br />
263 nC8 to nC14, Methodological Aspects of Headspace <strong>SPME</strong>. Application various fibers GC-FID<br />
neat J. High Resolut. Chromatogr. 20 (4): 217-221 (1997) 80°C, 5 min<br />
Schafer, B. Hennig, P., Engewald, W. headspace<br />
264 Phenol, alcohols Headspace <strong>SPME</strong>. Dynamics and Quantitative Analysis Before 85µm polyacrylate GC-MS<br />
in water Reaching a Partition Equilibrium 1-80 min at 25°C,<br />
Anal. Chem. 69 (16): 3260-3266 (1997) 1-40 min at 80°C<br />
Ali, J. headspace<br />
stirring<br />
413 Tetraethyllead <strong>SPME</strong> as a Sample Introduction Technique for Radio Frequency 30µm PDMS radio frequency<br />
in water Glow Discharge MS 5 min glow discharge<br />
Anal. Commun. (1997), 34(10), 275-277<br />
Gorecki, T., Belkin, M., Caruso, J., Pawliszyn, J.<br />
headspace, stirred MS<br />
265 Effect of Sample Volume on Quantitative Analysis by <strong>SPME</strong>,<br />
Part 1 - Theoretical Considerations<br />
Analyst (Cambridge) 122 (10): 1079-1086 (1997)<br />
Gorecki, T., Pawliszyn, J.<br />
740 Theory Kinetics of SPE and <strong>SPME</strong> in thin adsorbent layer with<br />
saturated sorption isotherm<br />
J.Chromatogr. A (2000) 873(1), 39-51<br />
Emenov, S, Koziel, J., Pawliszyn, J.<br />
769 BTEX The use of polymeric fullerenes as a new coating for <strong>SPME</strong> GC-FID<br />
from water Chromatographia (2000) 52(11/12), 803-809<br />
Xiao, C.; Liu, Z. ; Wang, Z.; Wu, C.; Han, H.<br />
headspace<br />
266 Organics <strong>SPME</strong> as a Tool to Determine Membrane/Water Partition 85µm polyacrylate GC-FID<br />
in water Coefficients and Bioavailable Concentrations in vitro 9-17 min<br />
Systems<br />
Chem. Res. Toxicol. 10 (10): 1067-1072 (1997)<br />
Vae, W., et al.<br />
immersion, stirring<br />
Ambient temperature, unless otherwise indicated. 171
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
267 PAHs, phenols, Sol-Gel Coating Technology for the Preparation of <strong>SPME</strong> Fibers Solgel coating GC-FID<br />
anilines of Enhanced Thermal Stability 30 min<br />
in water Anal. Chem. 69 (19): 3889-3898 (1997)<br />
Chong, S. et al.<br />
stirring<br />
911 Organometalics Development of new <strong>SPME</strong> fibers by sol-gel technology<br />
for <strong>SPME</strong>-HPLC determination of organometals<br />
Analytica Chimica Acta 1999, 402(1-2) 67-69<br />
Gabatu, T., Sutton, K., Caruso, J.<br />
Solgel coatings HPLC<br />
741 BTEX, herbicides High-performance polyethylene glycol-coated <strong>SPME</strong> fibers PAG sol-gel fiber<br />
in water using sol-gel technology 30°C, headspace<br />
J. Chromatogr. A 893 (2000) 157-168<br />
Wang, Z., Xiao, C., Wu, C., Han, H.<br />
salt added, pH adjusted<br />
554 Sol-gel method for the preparation of <strong>SPME</strong> fibers<br />
Anal. Lett., 1999, 32(8), 1675-1681<br />
Zhou, Z., Wang, Z., Qu, C., Zhan, W., Xu, Y.<br />
Solgel coatings<br />
268 BTEX Field-Portable <strong>SPME</strong>/Fast GC for Trace Analysis 30µm PDMS GC-FID, -PID<br />
in soil Field Anal. Chem. Technol. 1 (5): 277-284 (1997) 2 min,<br />
Gorecki, T., Pawliszyn, J. headspace, stirring<br />
555 Optimization of the <strong>SPME</strong> device design for field<br />
applications<br />
Fresenius' J. Anal. Chem. 1999, 364(7), 610-616<br />
Muller, L., Gorecki, T., Pawliszyn, J.<br />
varied coatings<br />
742 Equipment design Fiber Conditioners for <strong>SPME</strong>: Design, Testing, and application<br />
J.High Resol. Chromatogr. 2000, 23(4) 343-347<br />
Koziel, J., Shurmur, B., Pawliszyn, J.<br />
948 Organic pollutants <strong>SPME</strong>- a convenient tool for the determination of review article<br />
environmental organic pollutants in environmental matrices<br />
matrices Anal Chem (2001) 31(1), 1-18<br />
Zygmunt, B.; Jastrzebska, A.; Namiesnik, J.<br />
269 Organics in New Trends in <strong>SPME</strong> various fibers GC, HPLC<br />
air and water Crate. Rev. Anal. Chem. 27 (2): 103-135 (1997)<br />
Eisert, R., Pawliszyn, J.<br />
and conditions<br />
556 Review of technique Solid Phase Microextraction<br />
TrAC, Trends Anal. Chem. (1999), 18(4), 272-282<br />
Prosen, H., Zupancic-Kralj, L.,<br />
806 Review of technique Solid-phase microextraction (<strong>SPME</strong>) with direct detection<br />
a new analytical dimension<br />
Mitt. Lebensmittelunters. Hyg (2000) 91(6), 690-699<br />
Luisier, J; Villettaz, J; Azodanlou, R; Amado, R<br />
GC<br />
270 C6-C16 hydrocarbons Optimizing <strong>SPME</strong>-GC Injections 7µm, 30µm, 100µm PDMS GC-FID<br />
in water LC-GC 15 (12): 1130-1136 (1997) 10 min<br />
Okeyo, P., Snow, N. stirring<br />
403 PAHs Theoretical and Practical Comparison of <strong>SPME</strong> and overview GC-FID<br />
in water Liquid-Liquid Extraction with Large Volume Injection for<br />
Analysis of Aqueous Samples by GC<br />
Book chapter<br />
Snow, N.<br />
article<br />
Ambient temperature, unless otherwise indicated. 172
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
743 Semivolatiles Use of bench top photochemical reactor and <strong>SPME</strong><br />
in water to measure semivolatile organic compound-hydroxyl<br />
radical rate constants<br />
Environ. Toxicol. Chem 2000, 19(7), 1705-1710<br />
Bernhard, M., Simonich., S.<br />
271 PCBs Adsorption versus Absorption of Polychlorinated Biphenyls 100µm & 7µm PDMS GC-ECD<br />
in water onto <strong>SPME</strong> Coatings 5 hr<br />
Anal. Chem. 70 (9): 1866-1869 (1998)<br />
Yang, Y., Hawthorne, S., Miller, D., Liu, Y., Lee, M.<br />
stirring<br />
744 PCBs Response to comments on adsorption versus absorption 100µm PDMS GC-ECD<br />
in water of polychlorinated biphenyls onto <strong>SPME</strong> coatings 5 hr<br />
Anal. Chem. 72 (3): 642-6643 (2000)<br />
Yang, Y., Hawthorne, S., Miller, D., Liu, Y., Lee, M.<br />
stirring<br />
817 Aroclor 1254 Application of <strong>SPME</strong>-GC-MS to characterize intermediate 85µm polyacrylate GC-MS<br />
in a joint solar-microbial process for total mineralization 40min.<br />
of Aroclor 1254 stirring<br />
J.Chromatogr A 873 (2000) 53-61 2pH w/H3PO4 Rhofr, C., Hawari, J.<br />
745 Review article Evolution of solid phase microextracton technology<br />
J. Chromatogr. A 885(2000) 153-193<br />
Lord, H., Pawliszyn, J.<br />
various<br />
557 Benzene, Theory of analyte extraction by selected porous polymer PDMS/DVB, CW/DVB<br />
4-methylpentan-2one <strong>SPME</strong> fibers<br />
in water Analyst (Cambridge, UK) (1999), 124(5), 643-649<br />
Gorecki, T., Yu, Z., Pawliszyn, J.<br />
558 Organics New <strong>SPME</strong> fibers, Not only for aqueous systems PDMS/Carboxen/DVB<br />
in solvents LaborPraxis (1999), 23(3), 30-32, 34<br />
Haag, Ingo<br />
Nafion<br />
573 BTEX in New coating surfaces of fibers for <strong>SPME</strong> evaluation of various<br />
Methanol J-Microcolumn-Sep. May 1999; 11(5): 377-383<br />
Ligor,-M; Scibiorek,-M; Buszewski,-B<br />
coatings<br />
589 Coffee <strong>SPME</strong> application in GC/olfactometry dilution analysis PDMS fibers GC-FID<br />
sample J-Agric-Food-Chem. Apr 1999; 47(4): 1616-1618 15 min<br />
Deibler,-KD; Acree,-TE; Lavin,-EH headspace<br />
355 Terbutryn <strong>SPME</strong> with Rotation of the Microfiber 30µm PDMS GC-FID<br />
in water Anal. Chem 1998, 70, 3981-3982 immersion<br />
Geppert, H. stirring<br />
409 Organics Partitioning of Organic Chemicals to Polyacrylate-Coated <strong>SPME</strong> 85µm polyacrylate GC-FID, -ECD,<br />
in water Fibers: Kinetic Behavior and Quantitative Structure 35 min MS<br />
Property Relationship immersion<br />
Anal. Chem. 68: 4458-4462 (1996) stirring<br />
Vaes, W., Harnwijk, C., Urreatarazu, R., Verhaar, H. pH 7.5<br />
408 Methylmercury Application of Isotope Dilution to Ion Trap GC-MS 65µm PDMS/DVB GC-MS<br />
iodide in Anal. Chem 71, No. 2, Jan. 15, 1999, pg. 483-488 5 min<br />
soil and water Barshick, C., Barshick, E., Walsch, E., Vance, M., Britt, P. immersion<br />
stirring<br />
Anatoxin-a in aqueous Analysis of anatoxin-a in aqueous samples by <strong>SPME</strong> using on fibre<br />
974 samples<br />
derivitization<br />
J.Chromatogr. A (2002) 963(1-2), 295-302<br />
Namera, A.; So, A.; Pawliiszyn, J.<br />
HPLC<br />
Ambient temperature, unless otherwise indicated. 173
987<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Polychlorinated<br />
biphenyls Photolysis of polychlorinated biphenyls by <strong>SPME</strong><br />
J.Chromatogr. A (2002) 963(1-2), 37-47<br />
Lores, M.; Llompart, M.; Gonzalez-Garcia, R.; Gonzalez-Barreiro, C.; Cela,<br />
R.<br />
994 Germanium<br />
995<br />
1008<br />
Comparison of chloride- and hydride-generation for quantitation of<br />
germanium by headspace <strong>SPME</strong> inductively coupled plasma-mass<br />
spectrometry. ICP TOF MS<br />
Analytical and Bioananalytical Chemistry (2002) 373(8), 849-855<br />
Guo, X.M.; Mester, Z.; Sturgeon, r.e.<br />
Sample preparation in chromatography for long dash concentration,<br />
purification and filtration: guide to choice of equipment.<br />
Laboratorio 2000 (2002) 16 (6), 34-50<br />
Polesello, A.<br />
The development of selective and biocompatible coatings for solid phase<br />
microextraction<br />
Journal of Separation Science (2003) 26 (3-4), 251-260.<br />
Mullett, Wayne M.; Pawliszyn, Janusz<br />
1010 Rearrangement of p -menthane terpenes by Carboxen during HS-<strong>SPME</strong>.<br />
Journal of Separation Science (2002) 25 (10-11), 685-690.<br />
Zabaras, D.; Wyllie, S. G.<br />
Carboxen/PDMS GC-MS<br />
1030 Review Headspace analysis in modern gas chromatography.<br />
Trends in Analytical Chemistry (2002) 21 (9-10), 608-617.<br />
Snow, N. H.; Slack, G. C.<br />
1045<br />
Time-weighted average passive sampling with a Solid-Phase<br />
Microextraction device Various<br />
Analytical Chemistry (2003) 75 (9), 2004-2010.<br />
Chen, Yong; Pawliszyn, Janusz<br />
1061 Review article Research progress in solid-phase microextraction.<br />
Fenxi Kexue Xuebao (2002) 18 (5), 429-435.<br />
Chen, M.; Yuan, D. X.; Xu, P. X.; Chang, D. H.<br />
1075<br />
1102<br />
High concentration<br />
<strong>SPME</strong><br />
Static and dynamic<br />
sampling<br />
Extending the solid-phase microextraction technique to high analyte<br />
concentrations: measurements and thermodynamic analysis.<br />
Analytical Chemistry (2002) 74(5), 1031-1037<br />
Gill, K.; Brown, W. A.<br />
Comparison of different methods: static and dynamic headspace and solidphase<br />
microextraction for the measurement of interactions between milk<br />
proteins and flavour compounds with an application to emulsions.<br />
Journal of Agricultural and Food Chemistry (2002) 50(6), 1497-1501<br />
Fabre, M.; Aubry, V.; Guichard, E.<br />
1117 On-site calibration method based on stepwise solid-phase microextraction<br />
Journal of Chromatography A (2003) 999 (1-2), 43-50.<br />
Chen, Yong; Pawliszyn, Janusz; Xiong, Guohua<br />
75 um Carboxen/PDMS<br />
1118<br />
Solid-phase microextraction fibre-water distribution constants of more<br />
hydrophobic organic compounds and their correlations with octanol-water<br />
partition coefficients Various<br />
Journal of Chromatography A (2003) 999 (1-2), 35-42.<br />
Paschke, A.; Popp, P.<br />
Ambient temperature, unless otherwise indicated. 174
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1134 VOCs Optimization of solid-phase microextraction of volatiles.<br />
Journal of Chromatography, A (2002) 960(1-2), 159-164<br />
Matisova, E.; Medved apostrophe ova, M.; Vraniakova, J.; Simon, P.<br />
1203 Anodized zinc wire as a solid-phase microextraction fiber.<br />
Chromatographia (2003) 57 (11-12), 799-804.<br />
Djozan, D.; Abdollahi, L.<br />
GC<br />
1229<br />
Monolithic silica column for in-tube solid-phase microextraction coupled to<br />
high-performance liquid chromatography. HPLC<br />
Journal of Chromatography, A (2003) 985 (1-2), 351-357.<br />
Shintani, Y.; Zhou, X. J.; Furuno, M.; Minakuchi, H.; Nakanishi, K.<br />
1230 PAH's in water Thin-film microextraction.<br />
Analytical Chemistry (2003) 75 (4), 1002-1010.<br />
Bruheim, I.; Liu, X. C.; Pawliszyn, J. *<br />
GC-MS<br />
1245 Review Coupling solid-phase microextraction to liquid chromatography. A review.<br />
Analytical and Bioanalytical Chemistry (2003) 375 (1), 73-80.<br />
Zambonin, C. G.<br />
1277<br />
A new solid-phase microextraction adsorbent of polyphenylethylene-butyl<br />
acrylate and its application. GC-FID<br />
Fenxi Shiyanshi (2003) 22 (3, 1-4.<br />
Shen, S. C.; Wang, W. B.; An, H.<br />
1288 Copper sulfide wire as a selective fiber in solid-phase microextraction.<br />
Chromatographia (2003) 58 (3-4), 221-224.<br />
Djozan, D.; Amir-Zehni, M.<br />
GC-FID<br />
1303<br />
1304<br />
CE in a nonuniform capillary modulated by a cylindrical insert, and zonenarrowing<br />
effects during sample injection. CE<br />
Analytical Chemistry (2003) 75 (14), 3656-3659.<br />
Stoyanov, A. V.; Liu, Z.; Pawliszyn, J. *<br />
Styrene-butyl acrylate copolymer as solid-phase microextraction adsorbent<br />
and its applications. Styrene-butyl acrylate copolymer<br />
Sepu (2003) 21 (3), 285-287.<br />
Xue, H. Y.; Shen, S. C.*; Wang, W. B.; An, H.<br />
1353 Aliphatic alcohols, BTEX Anodized aluminium wire as a solid-phase microextraction fibre.<br />
Analytical Chemistry (2001) 73(16), 4054-4058.<br />
Djozan, D.; Assadi, Y.; Haddadi, S. H.<br />
GC<br />
1393 Phenols<br />
Solid-phase microextraction using fused-silica fibers coated with sol-gelderived<br />
hydroxy-crown ether.<br />
Analytical Chemistry (2001) 73(11), 2429-2436.<br />
Zeng, Z. R.; Qiu, W. L.; Huang, Z. F.<br />
1433 GC tools Tools simplify GC analysis of trace components<br />
Research and Development (2001) 43(8), 36-39.<br />
Marsill, R.<br />
GC<br />
1492<br />
Field sampling with<br />
<strong>SPME</strong><br />
Solid-phase microextraction ( <strong>SPME</strong> ) for rapid field sampling and analysis<br />
by gas chromatography-mass spectrometry (GC-MS).<br />
Trends in Analytical Chemistry (2002) 21(8), 534-543<br />
Smith, Philip A.; Hall, Tara; Hook, Gary L.; Kimm, Gregory L.<br />
Ambient temperature, unless otherwise indicated. 175<br />
GC-MS
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1498 Headspace sampling<br />
1515<br />
1051<br />
1073<br />
Use of <strong>SPME</strong> with<br />
complex environmental<br />
samples<br />
Organometallic<br />
arsenobetaine<br />
Headspace sampling: Critical part in evaluating true gas phase<br />
concentrations.<br />
Abstracts of Papers American Chemical Society (2002) 224(1-2), AGFD 72<br />
Zehentbauer, Gerhard N.; Eddy, Cindy L.; Pelfrey, Christa S.; Rodriguez,<br />
Pete A.<br />
Theoretical considerations on the use of solid-phase microextraction with<br />
complex environmental samples.<br />
Environmental Science & Technology (2002) 36(15), 3385-3392<br />
Zeng, Eddy Y.; Noblet, James A.<br />
Electrochemical control of solid phase micro-extraction: conducting polymer<br />
coated film material applicable for preconcentration/analysis of neutral<br />
species. HPLC-ICP/MS<br />
Talanta (2002) 58 (4), 739-745.<br />
Yates, B. J.; Temsamani, K. R.; Ceylan, O.; Oztemiz, S.; Gbatu, T. P.;<br />
LaRue, R. A.; Tamer, U.; Mark, H. B., Jr.*<br />
Helical sorbent for fast sorption and desorption in solid-phase<br />
microextraction-gas chromatographic analysis.<br />
Analytical Chemistry (2002) 74 (21), 5501-5506.<br />
Ciucanu, I.<br />
PDMS GC<br />
1078 Systematic error in automated in-tube solid-phase microextraction<br />
Journal of Chromatography A (2003) 995 (1-2), 1-10.<br />
Raghani, Anil R.; Schultz, Kristin N.<br />
1097 Flow-sampling system for solid-phase microextraction in situ.<br />
Fenxi Huaxue (2002) 30 (11), 1394-1398.<br />
Xu, D. Y.; Liu, M.; Liang, Y. L.; Liu, H. W.; Yin, B. Z.*<br />
1115 Organotin<br />
1124<br />
1125<br />
1136 Ehtylene oxide<br />
1137 Amines<br />
1143<br />
Physico-chemical approach to study organotin sorption-desorption during<br />
solid-phase microextraction<br />
Journal of Chromatography A (2003) 999 (1-2), 61-70.<br />
Aguerre, Sandrine; Lespes, Gaetane; Potin-Gautier, Martine<br />
High extraction efficiency solid-phase microextraction fibers coated with<br />
open crown ether stationary phase using sol-gel technique Various<br />
Analytica Chimica Acta (2003) 486 (1), 63-72.<br />
Yun, Lei<br />
A gas sample pre-concentration device based on solid phase<br />
microextraction (<strong>SPME</strong>) and temperature programmed desorption (TPD) Various<br />
Instrumentation Science and Technology (2003) 31 (2), 155-164.<br />
Basile, Franco<br />
Determination of ethylene oxide by solid-phase microextraction device with<br />
on-fiber derivatization.<br />
Journal of Chromatography, A (2003) 991 (1), 1-11.<br />
Tsai, S. W.; Wu, K. K.<br />
Carboxen/PDMS GC-MS<br />
Modified copper wire as solid-phase microextraction fibre, selective<br />
extraction of some amines. GC<br />
Chromatographia (2002) 56 (9-10), 611-616.<br />
Djozan, D.; Assadi, Y.; Karim-Nezhad, G.<br />
Modified headspace-<strong>SPME</strong>-GC device for sampling volatile compounds in<br />
acidic medium GC-FPD<br />
Journal of Separation Science (2003) 26 (6-7), 624-628.<br />
Araujo, W.A.; Cappelaro, E.A.; Lacerda, C.A.; Lancas, Fernando M.<br />
Ambient temperature, unless otherwise indicated. 176
1157<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
Hydroxyfullerene as a novel coating for solid-phase microextraction fibre<br />
with sol-gel technology. GC-ECD<br />
Journal of Chromatography, A (2002) 978 (1-2), 37-48.<br />
Yu, J. X.; Dong, L.; Wu, C. Y.*; Wu, L.; Xing, J.<br />
1212 Novel benzo-15-crown-5 sol-gel coating for solid-phase microextraction<br />
Journal of Chromatography A (2003) 1005 (1-2), 1-12.<br />
Peng, Jiagang; Wang, Danhua; Wu, Caiying; Xing, Jun<br />
GC<br />
1214<br />
1247<br />
1259<br />
1270<br />
1281<br />
1329<br />
1332<br />
1337<br />
New high-performance cryofocalizer injector for in-tube solid-phase<br />
microextraction and headspace capillary gas chromatographic applications.<br />
Journal of Chromatography, A (2003) 985 (1-2), 67-78.<br />
Nardi, L.<br />
Electrochemically assisted solid phase micro-extraction using L-dopa<br />
imprinted conducting polymer electrode fibers: Structural aspects.<br />
Abstracts of Papers American Chemical Society (2003) 225 (1-2), anyl 98.<br />
Schmiesing, Carla S.; Brooks, Elwood E.; Galal, Ahmed; LaRue, Rebecca<br />
A.; Mark, Harry B., Jr.; Temsamani, Khalid R.<br />
Patterns in the precision of quantitative data from multicomponent gas<br />
chromatographic or gas chromatographic-mass spectrometric analysis GC-MS<br />
Journal of Chromatography, A (2003) 1008 (1), 105-114.<br />
Garcia, M.A.; Martinez-Castro, I.; Sanz, J.; Soria, A.C.<br />
Solid-phase microextraction from small volumes of sample in a glass<br />
capillary.<br />
Journal of Chromatography, A (2003) 988 (1), 25-32.<br />
Zhu, P. L.; Liu, C. L.; Liu, M. C.<br />
Hydroxycarbonyl products of the reactions of selected diols with the OH<br />
radical GC-FID<br />
Journal of Physical Chemistry A (2003) 107 (32), 6200-6205.<br />
Arey, Janet; Atkinson, Roger; Bethel, Heidi L.<br />
A comparison of alkyl derivatization methods for speciation of mercury<br />
based on solid phase microextraction gas chromatography with furnace<br />
atomization plasma emission spectrometry detection<br />
Journal of Analytical Atomic Spectrometry (2003) 18 (8), 902-909.<br />
Grinberg, P.; Campos, R. C.; Mester, Z.; Sturgeon, R. E.*<br />
PDMS GC-FAPES<br />
Spectroscopic Studies of Sorbing Fibers Using Combined Elements with<br />
Multiple Attenuated Total Internal Reflection<br />
Optics and Spectroscopy (2000) 89 (3), 413-417.<br />
Bobasheva, A.S.; Enikeeva, A.G.; Malinin, I.V.; Mamedov, R.K.; Stolyarov,<br />
B.V.; Volchek, B.Z.<br />
Negligible depletion solid-phase microextraction with radiolabeled analytes<br />
to study free concentrations and protein binding: An example with /sup3/H<br />
estradiol<br />
Analytical Chemistry (2003) 74 (23), 5993-5997.<br />
Algra, Jon; Heringa, Minne B.; Hermenst, Joop L. M.; Pastor, Dolors; Vaes,<br />
Wouter H. J.<br />
1341 Solid phase micro-extraction in a miniature ion-trap mass spectrometer.<br />
Analyst (2003) 128 (9), 1119-1122.<br />
Riter, L. S.; Meurer, E. C.; Cotte-Rodriguez, I.; Eberlin, M. N.; Cooks, R. G.*<br />
PDMS<br />
Ambient temperature, unless otherwise indicated. 177
1350<br />
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1400 Hydroxy alkyl nitrates.<br />
1429 Aromatic hydrocarbons<br />
1430<br />
1435 VOC's<br />
1507<br />
Aliphatic carboxylic<br />
acids<br />
Solid-phase microextraction of monocyclic aromatic amines using novel<br />
fibres coated with crown ether.<br />
Journal of Chromatography, A (2001) 934(1-2), 51-57.<br />
Zeng, Z. R.; Qiu, W. L.; Yang, M.; Wei, X. A.; Huang, Z. F.; Li, F.<br />
Various GC<br />
Measurement of octanol-air partition coefficients using solid-phase<br />
microextraction ( <strong>SPME</strong> ): Application to hydroxy alkyl nitrates.<br />
Atmospheric Environment (2001) 35(33), 5843-5854.<br />
Rudich, Yinon; Shragina, Lea; Treves, Keren<br />
Application of low-temperature glassy carbon films in solid-phase<br />
microextraction GC-FID<br />
Anal. Chem. (2001) 73(24), 5841-5851.<br />
Giardina, M.; Olesik, S.V.<br />
Atomic spectrometry update. Industrial analysis: Metals, chemicals and<br />
advanced materials ICP-MS<br />
J Anal At Spectrom (2001) 16(12), 1446-1469.<br />
Fairman, B.; Goodall, P.; Hinds, M.W.; Nelms, S.M.; Penny, D.M.<br />
Application of the polysilicone fullerene coating for solid-phase<br />
microextraction in the determination of semi-volatile compounds<br />
Journal of Chromatography A (2001) 927(1-2), 121-130.<br />
Han, S.; Wang, Z.; Wu, C.; Xiao, C.; Xing, J.<br />
PDMS GC-FID<br />
Solid-phase microextraction and on-line methylation gas chromatography<br />
for aliphatic carboxylic acids.<br />
Analytical and Bioanalytical Chemistry (2002) 373(1-2), 64-69<br />
Danielson, Neil D.; Cho, Seong R.; Liu, Yaqian<br />
1502 VOCs from asphalt Effect of masking agents on the emission of VOCs from asphalt.<br />
Abstracts of Papers American Chemical Society (2002) 223(1-2), CHED<br />
451<br />
Smith, Crystal; Hardee, John<br />
1227 BTEX<br />
1099<br />
Chlorohydrocarbon in<br />
dry cleaning fabrics.<br />
1257 Formic acid<br />
Review<br />
1119 Review article<br />
1269 Review<br />
Capillary extractors for left dbl quote negligible depletion right dbl quote<br />
sampling of benzene, toluene, ethylbenzene and xylenes by in-tube solidphase<br />
microextraction.<br />
Journal of Chromatography, A (2003) 985 (1-2), 85-91.<br />
Nardi, L.<br />
Various fibers compared GC-MS<br />
Method for determining chlorohydrocarbon residues in dry cleaning fabrics<br />
with gas chromatography-mass spectrometry.<br />
Sepu (2002) 20 (6), 573-576.<br />
Chen, J.<br />
100 um PDMS GC-MS<br />
Quantitation of formate by solid-phase microextraction and gas<br />
chromatography-mass spectrometry utilizing a " 13 C"formate internal<br />
standard. GC-EIMS<br />
Journal of Chromatography, A (2003) 986 (2), 313-317.<br />
Kim, J. K.; Shiraishi, T.; Fukusaki, E.; Kobayashi, A. *<br />
Before the injection - Modern methods of sample preparation for separation<br />
techniques<br />
Journal of Chromatography A (2003) 1000 (1-2), 3-27.<br />
Smith, Roger M.<br />
Derivatization - solid-phase microextraction techniques and its application to<br />
analysis of organic compounds.<br />
Fenxi Huaxue (2003) 31 (4), 496-500.<br />
Luan, T. G.; Zhang, Z. X.<br />
Ambient temperature, unless otherwise indicated. 178
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
1371 Review<br />
A field guide to instrumentation: modern sample preparation methodology.<br />
1. Automated SPE.<br />
Inside Laboratory Management (2001) 5(5), 14-18.<br />
Sherma, J.; Larkin, J. D.; Larkin, F. H.<br />
2124 BTX solvents Thermal desorption <strong>SPME</strong> inlet for differential differential mobilit<br />
in water mobility spectrometry spectrometry<br />
Appl Spectrosc, 59, #6, 754-762<br />
De Harrington, Peter B.; Rainsberg, Matthew R.<br />
2125 pesticides A review on <strong>SPME</strong>-HPLC analysis of pesticides in-tube HPLC<br />
various Crit. Rev. Anal. Chem., 35, #1,71-85<br />
matrices Aulakh, J.; Kaur, V; Malik, A.; Schmitt-Kopplin, P<br />
2126 Volatiles & System for the generation of standard gas mixtures headspace GC<br />
seimivolatiles of volatile and semi-volatile organic compounds for<br />
in air calibrations of <strong>SPME</strong> and other sampling devices<br />
J Chromatogr A, 1025, #1, 3-9<br />
Koziel, Jacek; Martos, Perry.; Pawliszyn, J<br />
2127 Sulfur compd Small alpha -Mercaptoketone formation during the headspace GC-MS<br />
from Mailard Maillard reaction of cysteine and C13 ribose<br />
reaction J Agrl Food Chem, 52, #4, 958-961<br />
Cerny, C.; Davidek, T. *<br />
2128 Review <strong>SPME</strong> based on polypyrrole films with different counter ions polypyrrole<br />
Anal. Chim. Acta, 520, #1-2, 257-264<br />
Pawliszyn, Janusz; Wu, Jingcun<br />
2129 Review Coupling of dynamic headspace sampling and <strong>SPME</strong> headspace GC<br />
Chromatographia, 60, #11-12, 687-691<br />
Silva, R. C.; Aguiar, P. M. S.; Augusto, F. *<br />
2130 organics from Extraction techniques comparison w/SFE, GC<br />
water Anal. Bioanal. Chem., 372, #1, 39-40 microwave, pressure<br />
Camel, Valerie solvent<br />
2131 Odors from Study on the method of <strong>SPME</strong>-GC-MS to quantify GC/MS<br />
aging material organic gas component.<br />
Zhipu Xuebao, 25, Suppl, 97-98<br />
Yang, X. L.; Qin, J. Y.; Kang, B.<br />
2132 Review Solid-phase microextraction field sampler field sampling<br />
Anal. Chem., 76, #22, 6823-6828<br />
Chen, Yong; Pawliszyn, Janusz<br />
2133 BTEX in Kinetics and the on-site application of standards in a preloaded fiber GC<br />
water solid-phase microextration fiber<br />
Anal. Chem., 76, #19, 5807-5815<br />
Chen, Yong; Pawliszyn, Janusz<br />
2134 Review Modelling <strong>SPME</strong> data from kinetic measurements in GC<br />
complex samples.<br />
Analyst (Cambridge, U. K.), 129, #11, 1137-1142<br />
van Eijkeren, J. C. H.; Heringa, M. B.; Hermens, J. L. M.<br />
2135 Review Modern extraction techniques. GC<br />
Analytical Chemistry, 76, #16, 4659-4664<br />
Raynie, D. E.<br />
2136 Polar analytes Derivatization and solid-phase microextraction review article GC<br />
TrAC Trends Anal. Chem., 23, #8, 553-561<br />
Martinez, Jairo R.; Stashenko, Elena E.<br />
2137 Review The relationship between elimination rates and GC<br />
partition coefficients<br />
Chemosphere, 57, #8, 745-753<br />
Jager, T.; Kooi, B.W.; Kooijman, S.A.L.M.<br />
Ambient temperature, unless otherwise indicated. 179
(New references added to the 6th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
2138 PAHs <strong>SPME</strong> coupled to GC-MS for determining PAH-micelle GC-MS<br />
partition coefficients.<br />
Anal Chem, 76, #15, 4572-4578<br />
Pino, V.; Ayala, J. H.; Gonzalez, V.; Afonso, A.<br />
2139 Aromatic Equilibrium in-fibre standardisation technique for <strong>SPME</strong> headspace GC-FID<br />
standard on J. Chromatogr. A, 1072, #1, 13-17<br />
fiber Chen, Y; O'Reilly, J; Pawliszyn, Janusz; Wang, Y<br />
2140 Review Coupling spme to liquid chromatography. A review HPLC<br />
Anal. Bioanal. Chem., 375, #1,73-80<br />
Zambonin, Carlo G.<br />
2141 Peptides from Approaches for coupling <strong>SPME</strong> to nanospray Restrictive access MS-nanospray<br />
tryptic digests J. Chromatogr. A, 1067, #1-2, 197-205 coated fibers<br />
Dartiguenave, C; Gu, Yu; Lubda, D; Musteata, F;<br />
Pawliszyn, Janusz; Waldron, Karen; Walles, Markus<br />
2142 Terpene & Experimental determination and calculation of PDMS fibers GC<br />
ketones in distribution coefficients between air and fiber with PDMS<br />
air coating for some groups of organic compounds<br />
J. Chromatogr. A, 1077, #2, 195-201<br />
Isidorov, Valery A.; Vinogorova, Vera T.<br />
2143 Review of A survey on high-concentration-capability headspace headspace GC-MS<br />
extraction sampling techniques in the analysis of flavors<br />
techniques and fragrances.<br />
J Chrom Sci, 42, #8, 402-409<br />
Bicchi, C.; Cordero, C.; Rubiolo, P.<br />
Ambient temperature, unless otherwise indicated. 180
<strong>SPME</strong> Literature<br />
Literature<br />
No. Title<br />
Biochemical / Food and Beverage<br />
T195869 Solid Phase Microextraction: Solventless Sample Preparation for Monitoring Flavor Compounds<br />
by Capillary Gas Chromatography (AYM)<br />
T196901 Solid Phase Microextraction/Capillary GC Analysis of Drugs, Alcohols, and Organic Solvents in Biological Fluids (AYY)<br />
T396110 <strong>SPME</strong> Reduces Extraction Time in HPLC Analyses of Food Antioxidants and Preservatives<br />
T397140 Analysis of Fat Soluble Vitamins from Tablets, Using <strong>SPME</strong>/HPLC (BKK)<br />
T398147<br />
Pharmaceutical<br />
Solid Phase Microextraction of Odors in Drinking Water, for Analysis by GC-MS (BRG)<br />
T394062<br />
Forensic<br />
Monitor Organic Volatile Impurities (OVIs) in Pharmaceutical Products, Using Solid Phase Microextraction/Capillary GC (AQX)<br />
T196901 Solid Phase Microextraction/Capillary GC Analysis of Drugs, Alcohols, and Organic Solvents in Biological Fluids (AYY)<br />
T198922 <strong>SPME</strong>/GC for Forensic <strong>Applications</strong>: Explosives, Fire Debris, and Drugs of Abuse (BQS)<br />
T394061 Solid Phase Microextraction/Capillary GC: Rapid, Sensitive Detection of Gasoline in Fire Debris (AQW)<br />
T396098<br />
Environmental<br />
<strong>SPME</strong> / HPLC Interface Combines Fast Sample Extraction with Efficient Analysis for Explosives (ASE)<br />
T394006 Solid Phase Microextraction of Semivolatile Compounds in US EPA Method 625 (AOH)<br />
T394011 Solid Phase Microextraction of Volatile Compounds in US EPA Method 524.4 (AOM)<br />
T394017 Polyacrylate Film Fiber for Solid Phase Microextraction of Polar Semivolatiles from Water (AOS)<br />
T394056 Fast Analysis of Volatile Organic Compounds by Solid Phase Microextraction/Capillary GC (AQL)<br />
T394058 Fast Screening for Chlorinated Pesticides by Solid Phase Microextraction/Capillary GC (AQN)<br />
T395081 Monitor BTEX Compounds and Fuels in Water, Using Solid Phase Microextraction and Capillary GC (ARO)<br />
T395085 Solid Phase Microextraction/Capillary GC Analysis of Nitrogen-Containing Herbicides in Water (ARS)<br />
T396094 Solid Phase Microextraction of Organophosphate Insecticides and Analysis by Capillary GC/MS (ASB)<br />
T396099 <strong>SPME</strong> / HPLC: A Rapid and Sensitive Analysis of Polynuclear Aromatic Hydrocarbons in Water (ASF)<br />
T396106 Analysis of Surfactants in Water by <strong>SPME</strong>/HPLC<br />
T397121 Solid Phase Microextraction for HPLC Analysis of Carbamate and Urea Pesticides (BGU)<br />
T397141 Air Sampling of VOCs Using <strong>SPME</strong> for Analysis by Capillary GC (BKF)<br />
T397143 Field Sampling for Pesticides, Using Solid Phase Microextraction/Capillary GC (BJT)<br />
T398147 Solid Phase Microextraction of Odors in Drinking Water, for Analysis by GC/MS (BRG)<br />
Lab Hints and Selection <strong>Guide</strong>s<br />
T101928 <strong>SPME</strong> Troubleshooting <strong>Guide</strong> (EDV)<br />
T101929 <strong>Guide</strong> to Quantitation with <strong>SPME</strong> (EDW)<br />
T198923 Solid Phase Microextraction: Theory and Optimization of Conditions (BQT)<br />
T396098 <strong>SPME</strong> / HPLC Interface Combines Fast Sample Extraction with Efficient Analysis for Explosives (ASE)<br />
T496037 Solid Phase Microextraction Sampling Stand (AWS)<br />
T496049 <strong>SPME</strong> / HPLC Interface (AWV)<br />
T497105 <strong>SPME</strong> Portable Field Sampler with Carboxen/PDMS Fiber (BIZ)<br />
T497174 <strong>SPME</strong> Portable Field Sampler with 100 µm PDMS Fiber (BKL)<br />
Free Supelco Literature<br />
To obtain any of the free literature listed above, to see a complete list of Supelco literature, or to see any new Supelco products, use one<br />
of the following methods. Some literature is available electronically only.<br />
● Download from Our World Wide Web Site<br />
sigma-aldrich.com/supelco<br />
● Contact Our Order Processing Department<br />
Phone 800-247-6628 (US only) or 814-359-3441<br />
Fax 800-447-3044 (US only) or 814-359-3044<br />
181
Ordering Information:<br />
Sampling and Analysis Mode<br />
Fiber Core/ Hub Manual Holder Autosampler<br />
Assembly Type Description (w/ spring) (w/o spring)<br />
23 Ga* 24 Ga* 23 Ga* 24 Ga*<br />
Carboxen/Polydimethylsiloxane<br />
75 µm Carboxen/PDMS Fused Silica/SS Black/plain 57344-U 57318 57343-U 57319<br />
85 µm Carboxen/PDMS Metal alloy/Metal alloy** Lt. Blue/plain 57906-U<br />
85 µm Carboxen/PDMS Stableflex/SS Lt. Blue/plain 57334-U 57295-U 57335-U<br />
Polydimethylsiloxane (PDMS)<br />
7 µm PDMS Metal alloy/Metal alloy** Green/plain 57919-U<br />
7 µm PDMS Fused Silica/SS Green/plain 57302 57291-U 57303<br />
30 µm PDMS Metal alloy/Metal alloy** Yellow/plain 57922-U<br />
30 µm PDMS Fused Silica/SS Yellow/plain 57308 57289-U 57309<br />
100 µm PDMS Metal alloy/Metal alloy** Red/plain 57298-U<br />
100 µm PDMS Fused Silica/SS Red/plain 57342-U 57300-U 57341-U 57301<br />
Polydimethylsiloxane/Divinylbenzene (PDMS/DVB)<br />
60 µm PDMS/DVB Stableflex/SS Brown/notched 57317<br />
65 µm PDMS/DVB Metal alloy/Metal alloy** Blue/plain 57902-U<br />
65 µm PDMS/DVB Fused Silica/SS Blue/plain 57346-U 57310-U 57345-U 57311<br />
65 µm PDMS/DVB Stableflex/SS Pink/plain 57326-U 57293-U 57327-U<br />
Polyacrylate<br />
85 µm Polyacrylate Fused Silica/SS White/plain 57304 57294-U 57305<br />
Divinylbenzene/Carboxen/Polydimethylsiloxane<br />
50/30 µm DVB/CAR/PDMS Metal alloy/Metal alloy (1 cm)** Gray/plain 57912-U<br />
50/30 µm DVB/CAR/PDMS Metal alloy/Metal alloy (2 cm)** Gray/notched 57914-U<br />
50/30 µm DVB/CAR/PDMS Stableflex/SS (1 cm) Gray/plain 57328-U 57298-U 57329-U<br />
50/30 µm DVB/CAR/PDMS Stableflex/SS (2 cm) Gray/notched 57348-U 57299-U<br />
Polyethylene Glycol (PEG)<br />
60 µm PEG<br />
* Ga - Needle gauge.<br />
Metal alloy/SS Purple/plain 57355-U 57354-U<br />
** Metal alloy fiber assemblies are provided 1/pk.<br />
Fiber Assortment Kits<br />
Automated/HPLC<br />
Name Description of Fiber Coatings (1 ea.) Recommended Use Manual Std. 23 Ga.<br />
Needle Needle<br />
Kit # 1 85 µm polyacrylate, 100 µm PDMS, 7 µm PDMS GC 57306 57307 57285-U<br />
Kit # 2 75 µm Carboxen/PDMS, 65 µm PDMS/DVB, 85 µm polyacrylate GC 57320-U 57321-U 57286-U<br />
Kit # 3 60 µm PDMS/DVB, 85 µm polyacrylate, 100 µm PDMS HPLC – 57323-U –<br />
Kit # 4 100 µm PDMS, 65 µm PDMS/DVB, 75 µm Carboxen/PDMS GC 57324-U 57325-U 57287-U<br />
StableFlex Kit 65 µm PDMS/DVB, 50/30 µm DVB/Carboxen/PDMS GC 57550-U 57551-U –<br />
Kit # 5 100 µm PDMS, 65 µm PDMS/DVB, 85 µm Carboxen/PDMS GC 57324-U 57325-U 57287-U<br />
50/30 µm DVB/Carboxen/PDMS GC 57362-U<br />
<strong>SPME</strong> Fiber Holders<br />
The holder protects the coated fiber, and controls exposure of the<br />
fiber during analyte adsorption and desorption. The holder is<br />
reusable indefinitely and accepts the replaceable fiber assembly.<br />
First time users must order both a holder and a fiber assembly.<br />
Fiber Holder for Manual Sampling<br />
An adjustable depth guide positions the fiber for sampling and for<br />
correct placement in the heated zone of the GC injection port. The<br />
fiber can be locked in the exposed position.<br />
Fiber Holder for Automated Sampling or HPLC Analysis<br />
Use this fiber holder with a Varian 8100/8200 AutoSampler or with<br />
our <strong>SPME</strong>/HPLC interface. An <strong>SPME</strong> upgrade kit is necessary for<br />
operation with the Varian AutoSampler – contact Varian Instrument<br />
Division for information concerning system requirements.<br />
182<br />
Automated or HPLC Holder<br />
Manual Holder<br />
995-0125<br />
Fiber Holder for CTC, Gerstel, and Thermo Autosamplers ▲▲▲▲▲<br />
Use this holder with <strong>SPME</strong> fiber assemblies that are designed for<br />
automated sampling.<br />
Description Cat. No.<br />
Fiber Holder<br />
For Manual Sampling 57330-U<br />
For Varian Autosampler or HPLC Analysis 57331<br />
For CTC, Gerstel, and Thermo Autosamplers 57347-U<br />
▲ Autosamplers distributed by Varian, Leap, Gerstel, and Thermo.