SPME Applications Guide - Overbrook Scientific
SPME Applications Guide - Overbrook Scientific
SPME Applications Guide - Overbrook Scientific
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(New references added to the 7th edition are in bold) <strong>SPME</strong> Fiber /<br />
Analyte / Extraction<br />
Matrix Literature Reference Conditions Instrument<br />
in water Anal. Chem. 68: 130-133 (1996) min to 20 hr<br />
Dean, J., Tomlinson, W., Makovskaya, V., Cumming, R.,<br />
Hetheridge, M., Comber, M.<br />
immersion, stirring<br />
546 PAHs<br />
Solubility and partitioning studies with PAHs using an<br />
optimized <strong>SPME</strong> procedure 100µm <strong>SPME</strong> GC-MS<br />
in water and Fresenius' J. Anal. Chem. (1999), 363(4), 426-428 stirred<br />
octanol-water Paschke, A., Popp, P., Schueuermann, G.<br />
728 PAHs<br />
Determination of PAHs in waste water by off-line coupling<br />
<strong>SPME</strong> with column liquid chromatography 100µm PDMS HPLC<br />
in waste water J. Chjromtogr. A, 897(2000) 153-159<br />
Popp, P., Bauer, C., Moder, M., Paschke, A.<br />
60 min fluorescence<br />
547 Pesticides in<br />
Extracted amounts by <strong>SPME</strong>: a realistic approach to the<br />
partition coefficient K.<br />
water J. Chromtogr. Sci. 1999, 37(8), 277-282<br />
Urruty, L., Montury, M<br />
548 Volatiles<br />
Determination of Henry's law coefficient by combination of<br />
the equilibrium partitioning in closed systems and 100µm PDMS GC-FID<br />
in water <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 />
237 Organics in<br />
Partitioning of Organic Chemicals to Polyacrylate-Coated<br />
Solid-Phase Microextraction Fibers: Kinetic Behavior and 85µm polyacrylate GC-FID, -ECD<br />
water and air Quantitative Structure-Property Relationships immersion GC-MS<br />
Anal. Chem. 68: 4458-4462 (1996)<br />
Vaes, W., Hamwik, C., Ramos, E., Verhaar, H., Hermens, J.<br />
stirring<br />
Solid Phase Microextracting Using Fused-Silica Fibers Coated<br />
84 with Graphitized Carbon Black<br />
Chromatographia 41: 678-684 (1995)<br />
Mangani, R., Cenciarini, R.<br />
88 Overview<br />
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,<br />
Solid Phase Microextraction for Quantitative Analysis in<br />
Nonequilibrium Situations 85µm polyacrylate GC-MS<br />
2,4-dimethylphenol, Anal. Chem. 69: 1230-1236 (1997) 1-160 min<br />
2-phenylethanol Ali, J. immersion, stirring<br />
in water<br />
<strong>SPME</strong> in Headspace Analysis, Dynamics in Non-Steady State<br />
salt added<br />
360 2-Octanol Mass Transfer 85µm polyacrylate, GC-MS<br />
in water Anal. Chem., 70: 4822-4826, (1998) 100µm PDMS<br />
Ali, J. headspace<br />
2623 Volatiles from<br />
Analysis of volatile compounds from Malaysian durians (Durio zibethinus)<br />
using headspace <strong>SPME</strong> coupled to fast GC-MS headspace GC-MS<br />
Malaysian durians J. Food Compos. Anal. (UK) 20, #1, 31-44 (Feb. 2007)<br />
Nazimah, S.; Chin, S.; Quek, S.; Man, Y.; Rahman, R.; Hashim, D. M.<br />
2637 Volatiles from<br />
Characterization of volatile compounds in selected citrus fruits from<br />
Asia. Part I: freshly-squeezed juice headspace GC-MS<br />
citrus fruit Flavour and Fragrance J. 22, #3, 228-232 (MAY-JUN 2007)<br />
Dharmawan, Jorry; Kasapis, Stefan; Curran, Philip; Johnson, Jeffrey R.<br />
2725 Volatiles from<br />
Postharvest survey of volatile compounds in five tropical fruits<br />
using headspace-solid phase microextraction (HS-<strong>SPME</strong>). headspace GC-MS<br />
tropical fruit HortScience 42, #2, 309-314 (2007)<br />
Natta Laohakunjit; Orapin Kerdchoechuen; Matta, F.; Silva, J.; Holmes, W.<br />
sat. salt<br />
Ambient temperature, unless otherwise indicated. 214