GAS CHROMATOGRAPHIC "IN COLUMN" SPECTROSCOPIC ANALYSIS
First Claim
1. A chemical detector for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives, comprising:
- one or more gas chromatography columns, wherein each column comprises one or more chemosorbent or chemo-reactive stationary phases, and wherein each column has an infrared-transparent base;
a bright infrared light source;
means to direct the light source, wherein the light source can be directed to any point along any of the columns or to a preconcentrator or collector device; and
an infrared sensor.
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Accused Products
Abstract
A chemical detector for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives having one or more gas chromatography columns each with a chemosorbent or a chemo-reactive stationary phase and an infrared-transparent base, a bright infrared light source, a mechanism to direct the light source to any point along any of the columns, and an infrared sensor. Another disclosed detector has one or more gas chromatography columns each on the surface of a substrate having at least one infrared-transparent waveguide pattern, a bright infrared light source, and at least one ring resonator for each column, where each ring resonator is coated with a chemosorbent or a chemo-reactive stationary phase, and where each ring resonator spectroscopically probes the stationary phase. Also disclosed are the related methods for chemical detection.
17 Citations
24 Claims
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1. A chemical detector for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives, comprising:
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one or more gas chromatography columns, wherein each column comprises one or more chemosorbent or chemo-reactive stationary phases, and wherein each column has an infrared-transparent base; a bright infrared light source; means to direct the light source, wherein the light source can be directed to any point along any of the columns or to a preconcentrator or collector device; and an infrared sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives, comprising:
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injecting a vapor-phase analyte sample into one or more gas chromatography columns, wherein each column comprises one or more chemosorbent or chemo-reactive stationary phases, and wherein each column has an infrared-transparent base; directing a bright infrared light source to a point at one of the columns, wherein the light source can be directed to any point along any of the columns or to a preconcentrator or collector device; and using an infrared sensor to detect for the presence of chemicals. - View Dependent Claims (10, 11, 12, 13)
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14. A chemical detector for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives, comprising:
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one or more gas chromatography columns, wherein each column is on a surface of a substrate, wherein the substrate surface has one or more waveguide patterns, and wherein each waveguide pattern is transparent to infrared light; a bright infrared light source; and at least one ring resonator for each column, wherein each ring resonator is coated with one or more chemosorbent or chemo-reactive stationary phases, and wherein each ring resonator spectroscopically probes the stationary phase. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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21. A method for rapid, simultaneous detection of multiple chemicals including chemical warfare agents, toxic industrial chemicals, and explosives, comprising:
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injecting a vapor-phase analyte sample into one or more gas chromatography columns, wherein each column is on a surface of a substrate, wherein the substrate surface has one or more waveguide patterns, and wherein each waveguide pattern is transparent to infrared light; directing a bright infrared light into each waveguide; and using a ring resonator to spectroscopically probe the stationary phase of a column, wherein there is at least one ring resonator for each column, and wherein each ring resonator is coated with one or more chemosorbent or chemo-reactive stationary phases. - View Dependent Claims (22, 23, 24)
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Specification