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<br />
<strong>SPME</strong> in Pretreatment of Environmental Samples<br />
Conditions Instrument<br />
274 Huaxue Jinzhan 10 (1): 74-84(1998)<br />
Jia, J., He, Y., Huang, J.<br />
Direct <strong>SPME</strong> of Complex Aqueous Samples with Hollow<br />
275 Aqueous samples Fiber Membrane Protection<br />
Anal. Commun. 33 (7): 219-221(1996)<br />
Zhang, Z., Poerschmann, J., Pawliszyn, J.<br />
The degradtion of humic substance using continuous<br />
2838 Organics from photocatalysis systems GC<br />
humic material Sep. Sci. Technol. 43, #1, 93-112 (January 2008)<br />
Areerachakul, N.; Duangduen, C.; Kandasamy, J.; Vigneswaran, S.<br />
Partitioning of selected environmental pollutants into organic matter<br />
2618 Organics from as determined by solid-phase microextraction GC<br />
humic material Chemosphere 66, #8, 1580-1589 (2007-01)<br />
Prosen, H.; Fingler, S.; Zupancic-Kralj, L.; Drevenkar, V.<br />
Bioavailability of PCBs from field-collected sediments: Application<br />
2801 PCBs in sediment of Tenax extraction and matrix-<strong>SPME</strong> techniques GC<br />
Chemosphere 71, #2, 337-344 (MAR 2008)<br />
Trimble, Tricia A.; You, Jing; Lydy, Michael J.<br />
Availability of polychlorinated biphenyls in field-contaminated sediment<br />
2631 PCBs in sediment Env Tox Chem 26, #9, 1940-1948 (SEP 2007) GC<br />
You, Jing; Landrum, Peter E.; Trimble, Tricia A.; Lydy, Michael J.<br />
Sorption of very hydrophobic organic compounds onto<br />
693 Alkanes, PCBs,PAHs PDMS and dissolve humic organic matter. 1. Adsorption or 7um, 30um PDMS GC-MS<br />
in humic material partitioning of VHOC on PDMS coated <strong>SPME</strong> fibers- 20 min SIMS<br />
never-ending story stirring<br />
Environ Sci Technol 2000, 34, 3824-3830<br />
Poerschmann, J., Gorecki, T., Kopinke, G.<br />
Sorption of hydrophobic organic compounds on nonpolar<br />
844 Hydrophobic organics <strong>SPME</strong> fibres and dissolved humic organic matter long dash PDMS, polyacrylate GC-MS<br />
in humic material 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<br />
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<br />
<strong>SPME</strong> for Determining Distribution of Chemicals in<br />
Aqueous Matrixes 100µm PDMS GC-MS<br />
in wastewater Anal. Chem. 69 (4): 597-600 (1997) 10 sec<br />
Zhang, A., Kopinke, G., Pawliszyn, J. stirring<br />
277 Chlorinated organics<br />
Water Solubility and Octanol/Water-Partitioning of<br />
Hydrophobic Chlorinate Organic Substances Determined<br />
in water by Using <strong>SPME</strong>/GC<br />
Fresenius’ J. Anal. Chem. 360 (1): 52-57 (1998)<br />
Paschke, A., Popp, P.<br />
278 Phenols<br />
Determination of Phenols by Solid-Phase Microextraction<br />
J. Chromatogr. A 767 (1+2): 171-175 (1997) 85µm polyacrylate GC-FID<br />
in water Bartak, P., Cap, L.<br />
Determination of Chlorophenols Using <strong>SPME</strong> and GC/MS<br />
25°C, 60 min<br />
headspace<br />
pH 1, salt added<br />
439 Chlorophenols Ann. Chim. (Rome) (1998), 88(9-10), 629-635 GC-MS<br />
in water Guidotti, M., Ravaioli, G.<br />
Determination of volatile organic compounds pollution sources in<br />
Ambient temperature, unless otherwise indicated. 154