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Performance of stacked, flow-through micropreconcentrators for portable trace detection

NCJ Number
305672
Journal
International Journal of Ion Mobility Spectrometry Volume: 13 Dated: 2010 Pages: 109-119
Author(s)
Michael D. Martin ; Thomas J. Roussel ; Scott Cambron; Julia Aebersold; Douglas Jackson ; Kevin Walsh; Ji-Tzuoh Lin; Martin G. O’Toole ; Robert Keynton
Date Published
December 2010
Length
11 pages
Annotation

In this work, a prototype trace sampling system intended for use with ion mobility spectrometers is presented.

Abstract

Improving techniques for portable trace analyte collection and pretreatment is of critical concern for security, medical, food, and environmental applications. The trend has been to employ MEMS technologies to meet this need, as these microfabricated devices offer advantages such as small dead volumes, low power consumption, capacity for large scale manufacture, and a commensurate savings with economies of scale. The system utilizes a stack of microfabricated preconcentrator plates capable of collecting samples in a sorbent polymer at flow rates up to 30 LPM. The plates are thermally desorbed after an integration period to produce a concentrated vapor plug that is transferred to the detector for analysis. A real-time controller, FPGA, and custom electronics are used to manage independent heating of up to 4 of these devices in either constant voltage or temperature modes. The preconcentrators were tested with a commercial Vapor Tracer II IMS against TNT and RDX vapors ranging in concentration from 2.6 PPT to 620 PPT under a variety of conditions. Results are presented on performance of single preconcentrators with RDX, multiple cascaded devices vs. TNT and RDX, with and without a PDMS detector inlet membrane, and to compare sorbent coated and bare devices. The system demonstrated preconcentration factors of 38 with 2.6 PPT RDX and 30 with 13 PPT TNT. (Publisher abstract provided)