System and method for fusing chemical detectors

摘要

Two complementary approaches to the science of IMS technology, IMS and differential IMS (DIMS), are combined into a single instrument to provide improvements in interference rejection without sacrificing detection sensitivity. The technology is applicable to, inter alia, the analysis of trace quantities of toxic or otherwise dangerous organic chemical materials. The approach improves both sensitivity and specificity (interference rejection) of field detection instrumentation.

主权项

1. A chemical agent detector comprising:
an ionization chamber including at least one ion source for generating positive and negative ions from a sample; a first ion mobility spectrometry cell integrated with the ionization chamber for receiving at least a first portion of the positive ions therefrom; a second ion mobility spectrometry cell integrated with the ionization chamber for receiving at least a first portion of the negative ions therefrom; a differential ion mobility spectrometry cell integrated with the ionization chamber for receiving at least a second portion of the positive ions and at least a second portion of the negative ions therefrom; the ionization chamber further including a front face; a back face opposite the front face; first and second side faces opposite one another and between, perpendicular to and connecting the front face and the back face; a top face perpendicular to and connecting the front face, back face and first and second side faces: wherein the front face includes at least one input port for receiving the sample into the ionization chamber, the top face includes at least one input port for receiving the ion source, the first side face includes an i/o port for passing the first portion of positive ions to the first ion mobility spectrometry cell and receiving a first IMS drift gas into the ionization chamber from the first ion mobility spectrometry cell, the second side face includes an i/o port for passing the first portion of negative ions to the second ion mobility spectrometry cell and receiving a second IMS drift gas into the ionization chamber from the second mobility spectrometry cell, and the back face includes and an exit port for passing the second portion of positive ions, the second portion of negative ions and a carrier gas consisting of the first and second IMS drift gases to the differential ion mobility spectrometry cell; and a processor for separately receiving first detection data from the first ion mobility spectrometry cell, second data from the second ion mobility spectrometry cell, and third data from the differential ion mobility spectrometry cell and processing the first, second and third detection data to determine presence of one or more chemical agents in the sample.