Evaluation of a multi‐fiber exchange solid‐phase microextraction system and its application to on‐site sampling |
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Authors: | German A Gómez‐Ríos Nathaly Reyes‐Garcés Janusz Pawliszyn |
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Institution: | Department of Chemistry, University of Waterloo, Ontario, Canada |
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Abstract: | Until recently, multiple solid‐phase microextraction fibers could not be automatically desorbed in a single gas chromatographic sequence without manual intervention from an operator. This drawback had been a critical issue, particularly during the analysis of numerous on‐site samples taken with various fiber assemblies. Recently, a Multi‐Fiber Exchange system, designed to overcome this flaw found in other commercially available autosamplers, was released. In the current research, a critical evaluation of the Multi‐Fiber Exchange system performance in terms of storage stability and long‐term operation is presented. It was established in the course of our research that the Multi‐Fiber Exchange system can operate continuously and precisely for multiple extraction/injection cycles. However, when the effect of residence time of commercial fibers on the Multi‐Fiber Exchange tray was evaluated, results showed that among the evaluated fiber coatings, Carboxen/polydimethylsiloxane was the only coating capable of efficient storage on the tray for up to 24 h after field sampling without suffering significant loss of analytes (≤10% for benzene, toluene, ethylbenzene, o‐xylene, decane, and limonene). Additionally, the system capability for high‐throughput analysis was demonstrated by the unattended desorption of multiple fibers after on‐site sampling of toluene, indoor air levels, in a polymer synthesis lab. |
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Keywords: | Automated solid‐phase microextraction Multifiber exchange system On‐site analysis SPME |
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