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 />
858 Chloroform<br />
Chloroform formation during kraft pulp bleaching with<br />
chlorine and chlorinated compounds -determination of<br />
from Kraft pulp bleach chloroform amounts by solid phase microextraction<br />
Kami Pa Gikyoshi (2000) 54(11) 1555-1563<br />
Oi, Hiroshi; Masuzawa, Kiyoshi<br />
Application of Solid Phase Microextraction (<strong>SPME</strong>) in<br />
(Japanese)<br />
83 Benzene, halobenzene Combination with GC/FID: The Determination of Benzene and GC-FID<br />
in water 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<br />
Matrix effect for several derivatives of benzene in water<br />
by <strong>SPME</strong><br />
in surface water Chromatographia 2000, 51(suppl.) S328-S330<br />
Javorszky, E., Molnar, E., Torkos, K. Borossay, J<br />
Comparison of On-line SPE-HPLC and <strong>SPME</strong>-GC for<br />
86 Organics the Analysis of Microcontaminants in Water HPLC<br />
in water Chromatographia 41: 462-470 (1995)<br />
Rivasseau, C., Caude, M.<br />
Determination of Haloethers in Water by <strong>SPME</strong><br />
217 Haloethers J. Chromatogr. A 769: 239-246 (1997) 100µm PDMS GC-FID<br />
in water Huang, S., Ting, C., Lin, C. 40 min, immersion<br />
saturated salt<br />
Anaerobic biotransformation of trichlorofluoroethene in<br />
586 Trichlorofluoroether groundwater microcosms. 100µm PDMS GC-MS<br />
in water Environ-Sci-Technol. 15 Jun 1999; 33(12): 2040-2045 headspace<br />
Vancheeswaran,-S; Hyman,-MR; Semprini,-L salt, agitation<br />
Determination of Volatile Organic Compounds in Water<br />
90 Aromatics by Solid Phase Micro-Extraction and Infrared Spectroscopy parafilm, GC-FID<br />
in water Environ. Sci. Technol. 30: 1212-1219 (1996) 30 min<br />
Heglund, D., Tilotta, D.<br />
Poly(dimethylsiloxane) films as sorbent for <strong>SPME</strong> couple<br />
926 infrared spectroscopy PDMS IR<br />
J. Chromatogr. A (1998), 829(1-2) 377-384<br />
Merschman, S., Lubbad, S., Tilotta, D.<br />
Development of headspace <strong>SPME</strong>/attenuated total reflection<br />
942 Volatile organics infrared chemical sensing method for the determination o IR<br />
in water of volatile organic compounds in aqueous solutions<br />
Analytica Chimica Acta (2001), 436(1), 31-40 headspace<br />
Yang, Jyisy; Tsai, Shu-Sha<br />
505 Hydroxyaromatics<br />
Determination of hydroxyaromatic compounds in water by<br />
<strong>SPME</strong> coupled to HPLC PDMS/DVB or CW-TPR HPLC<br />
in water J. Chromatogr. A. (1999), 835(1+2), 127-135<br />
Wu, Y., Huang, S.<br />
280nm<br />
229 71 organics<br />
Calibration of a Commercial Solid-Phase Microextraction<br />
Device for Measuring Headspace Concentrations of 100µm PDMS GC-FID<br />
in gaseous mixture Organic Volatiles 25°C, 30 min<br />
Anal. Chem. 69: 364-372 (1997)<br />
Bartlet, R.<br />
headspace<br />
155 VOCs<br />
Sampling Volatile Organic Compounds Using a Modified<br />
Solid Phase Microextraction Device 100µm PDMS GC-MS<br />
in water J High Res. Chromatogr. 19(3): 155-60 (1996) 10 min<br />
Zhang, Z., Pawliszyn, J.<br />
Solid Phase Microextraction of Volatile Compounds Using<br />
headspace<br />
stirring, saturated salt<br />
205 Volatiles Carboxen-Polydimethylsiloxane Fibers 75µm Carboxen/PDMS GC-FID, ECD<br />
in water Chromatographia 46: 419-424 (1997) 30 min<br />
Popp, P., Paschke, A. headspace<br />
stirring<br />
Ambient temperature, unless otherwise indicated. 150