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 />
atmosphere React. Hudrocarbons Atmos. (1999), 119-157<br />
Boob, Academic, Coden: 67ERAQ<br />
Cao, X, Hewitt, C.<br />
851 Toluene diisocyanate<br />
Determination of gaseous toluene diisocyanate by use of<br />
solid-phase microextraction with on-fibre derivatisation. 65µm DVB/PDMS LC-MS-MS<br />
Fresenius' J. Anal. Chem. (2001), 369(6), 524-529 60min.<br />
Nilsson, U.; Batlle, R.; Colmsjo, A. dibutylamine derivative<br />
752 VOC, formaldehyde<br />
Field air analysis with <strong>SPME</strong> device<br />
Analytica Chimiera Acta 400 (1999) 153-162 varied fibers GC-FID<br />
in air Koziel, J., Jia, M., Khaled, A., Noah, J., Pawliszyn, J.<br />
Field Sampling and Determination of Formaldehyde in Indoor<br />
1-75 min<br />
air samples<br />
753 VOC, formaldehyde Air with <strong>SPME</strong> and On-Fiber Derivatization 65µm DVB/PDMS GC-FID<br />
in air Environ Sci Technol 2001, Vol 35, pg. 1481-1486 10min. Headspace<br />
Koziel, J., Noah, J., Pawliszyn, J. PFBHA Derivative<br />
2702 Aromatic VOCs<br />
Field analysis of benzene, toluene, ethylbenzene and xylene in water by<br />
portable GC-micro-FID combined with headspace <strong>SPME</strong> 65µm DVB/PDMS GC-FID<br />
in water Talanta 69, #4, 894-899 (2006-06-15)<br />
Ji, J.; Deng, C. H.; Shen, W. W.; Zhang, X. M.<br />
1min. Headspace<br />
sat. salt<br />
755 Aromatic VOCs<br />
Design of Validation of Portable <strong>SPME</strong> devices for<br />
rapid field air sampling and diffusion-based calibration 65µm DVB/PDMS GC-FID<br />
in Indoor air Anal. Chem. 2001,73(3), 481-486<br />
Augusto, F., Koziel, J., Pawliszyn, J.<br />
30 sec air sampling<br />
759 VOCs<br />
Fast field sampling/sample preparation and quantification<br />
of volatile organic compounds in indoor air by <strong>SPME</strong> 65µm DVB/PDMS GC-FID<br />
in Indoor air 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<br />
Analysis of volatile organic compounds in the ambient air of<br />
Algiers by GC with a beta-cyclodextrine capillary column<br />
in air J. Chromatogr A, 1999, 846(1+2), 287-293<br />
Yassaa, N., Meklati, B., Cecinato, A.<br />
984 VOC's in air<br />
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 />
Analysis of airborne volatile organic compounds of a steel industry by solid<br />
phase microextraction and gas chromatography/mass spectrometry.<br />
Bulletin of Environmental Contamination and Toxicology (2003) 70 (5), 957-<br />
963. GC-MS<br />
de Lourdes Cardeal, Z.; de Carvalho, C. R.; Parreira, F. V.<br />
Solid phase microextraction with analysis by gas chromatography to determine<br />
short term hydrogen cyanide concentrations in a field setting.<br />
Hydrogen cyanide in<br />
1070 air Journal of Separation Science (2002) 25 (14), 917-921.<br />
Smith, P. A.; Sheely, M. V.; Kluchinsky, T. A, Jr.<br />
GC-NPD<br />
1114<br />
Development of a quantification method for the analysis of malodorous sulphur<br />
compounds in gaseous industrial effluents by solid-phase microextraction and<br />
gas chromatography-pulsed flame photometric detection<br />
Malodorous sulphur<br />
compounds in effluents Journal of Chromatography A (2003) 999 (1-2), 71-80. PDMS/carboxen GC-PFPD<br />
Desauziers, Valerie; Fanlo, Jean-Louis; Lestremau, Francois; Roux, Jean-<br />
Claude<br />
Ambient temperature, unless otherwise indicated. 207