Your search keyword '"Collins, Greg"' showing total 202 results

201. Measurements of chemical warfare agent degradation products using an electrophoresis microchip with contactless conductivity detector.

Author

Wang J, Pumera M, Collins GE, and Mulchandani A

Subjects

Chemical Warfare Agents chemistry, Electric Conductivity, Electrophoresis standards, Microchemistry instrumentation, Miniaturization, Organothiophosphorus Compounds analysis, Organothiophosphorus Compounds chemistry, Sarin analysis, Sarin chemistry, Sensitivity and Specificity, Soman analysis, Soman chemistry, Chemical Warfare Agents analysis, Electrophoresis instrumentation, Organophosphorus Compounds analysis

Abstract

This paper reports on a microfluidic device for the screening of organophosphonate nerve agent degradation products. The miniaturized system relies on an efficient chip-based separation of alkyl methylphosphonic acids (breakdown products of Sarin, Soman, and VX nerve agents) followed by their sensitive contactless conductivity detection. Experimental parameters relevant to the separation and detection processes have been optimized to yield high sensitivity (with 48-86 microg L(-1) detection limits), fast response (50 s for a three alkyl methylphosphonic acid mixture), high precision (RSD = 3.8-5.0%), and good linearity (over the 0.3-100 mg L(-1) range). Applicability to natural (river) water samples is demonstrated. The new microsystem offers promise for monitoring degradation products of chemical warfare agents, with advantages of speed/warning, efficiency, portability, sample size, and cost compared to conventional ion chromatography or capillary electrophoresis systems.

Published

2002

202. Single-channel microchip for fast screening and detailed identification of nitroaromatic explosives or organophosphate nerve agents.

Author

Wang J, Pumera M, Chatrathi MP, Escarpa A, Musameh M, Collins G, Mulchandani A, Lin Y, and Olsen K

Subjects

Electrochemistry, Electrophoresis, Microcomputers, Chemical Warfare Agents analysis, Nitro Compounds analysis, Organophosphorus Compounds analysis

Abstract

A single-channel chip-based analytical microsystem that allows rapid flow injection measurements of the total content of organic explosive or nerve agent compounds, as well as detailed micellar chromatographic identification of the individual ones, is described. The protocol involves repetitive rapid flow injection (screening) assays--to provide a timely warning and alarm--and switching to the separation (fingerprint identification) mode only when harmful compounds are detected. While micellar electrokinetic chromatography, in the presence of sodium dodecyl sulfate (SDS), is used for separating the neutral nitroaromatic explosive and nerve agent compounds, an operation without SDS leads to high-speed measurements of the "total" explosives or nerve agent content. Switching between the "flow injection" and "separation" modes is accomplished by rapidly exchanging the SDS-free and SDS-containing buffers in the separation channel. Amperometric detection was used for monitoring the separation. Key factors influencing the sample throughput, resolution, and sensitivity have been assessed and optimized. Assays rates of about 360 and 30/h can thus be realized for the "total" screening and "individual" measurements, respectively. Ultimately, such development will lead to the creation of a field-deployable microanalyzer and will enable transporting the forensic laboratory to the sample source.

Published

2002