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Detection of Chemical Warfare Agents by Colorimetric Sensor Arrays

Charles E. Davidson, Melissa M. Dixon, Barry R. Williams, Gary K. Kilper, Sung Hee Lim, Raymond A. Martino, Paul Rhodes, Melissa S. Hulet, Ronald W. Miles, Alan C. Samuels, Peter A. Emanuel, Aleksandr E. Miklos

2020ACS Sensors87 citationsDOI

Abstract

We report the successful use of colorimetric arrays to identify chemical warfare agents (CWAs). Methods were developed to interpret and analyze a 73-indicator array with an entirely automated workflow. Using a cross-validated first-nearest-neighbor algorithm for assessing detection and identification performances on 632 exposures, at 30 min postexposure we report, on average, 78% correct chemical identification, 86% correct class-level identification, and 96% correct red light/green light (agent versus non-agent) detection. Of 174 total independent agent test exposures, 164 were correctly identified from a 30 min exposure in the red light/green light context, yielding a 94% correct identification of CWAs. Of 149 independent non-agent exposures, 139 were correctly identified at 30 min in the red light/green light context, yielding a 7% false alarm rate. We find that this is a promising approach for the development of a miniaturized, field-portable analytical equipment suitable for soldiers and first responders.

Topics & Concepts

Chemical Warfare AgentsContext (archaeology)Identification (biology)WorkflowChemical agentsComputer scienceRed lightBiochemical engineeringEngineeringDatabaseBotanyPaleontologyBiologyAdvanced Chemical Sensor TechnologiesInsect Pheromone Research and ControlAnalytical Chemistry and Chromatography
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