Sensor device and method for qualitative and quantitative analysis of gas phase substances
First Claim
1. A sensor for detecting gas phase substances, comprising:
- a sensing element in contact with the gas phase substances, comprising;
a first resistance temperature detector which functions as a temperature detector and a variable resistance heater, anda first catalyst in thermal contact with the first resistance temperature detector, wherein the first catalyst interacts with the gas phase substances;
a reference element in contact with the gas phase substances, comprising;
a second resistance temperature detector which functions as a temperature detector and a variable resistance heater, anda second catalyst in thermal contact with the second resistance temperature detector, wherein the second catalyst interacts with the gas phase substances;
a thermal barrier separating the sensing element from the reference element; and
a heat flow monitor connected to both the sensing and reference elements for measuring any change in heat flow for the sensing element relative to the reference element by monitoring the change in electric power needed to maintain the first resistance temperature detector at a desired temperature relative to the second resistance temperature detector.
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Abstract
New sensors and methods for qualitative and quantitative analysis of multiple gaseous substances simultaneously with both high selectivity and high sensitivity are provided. The new sensors rely on a characteristic difference in energy between the interaction of a particular substance with a catalyst coated heat transfer device (HTD) and a non-catalyst coated (or one coated with a different catalyst) reference HTD. Molecular detection is achieved by an exothermic or endothermic chemical or physical reaction between the catalytic surface of the sensor and the molecule, tending to induce a temperature change of the sensor. Both high temperature and non-destructive low temperature detection are possible. The magnitude and rate of endothermic or exothermic heat transfer from a specific molecule-catalyst interaction is related to molecular concentration.
71 Citations
9 Claims
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1. A sensor for detecting gas phase substances, comprising:
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a sensing element in contact with the gas phase substances, comprising; a first resistance temperature detector which functions as a temperature detector and a variable resistance heater, and a first catalyst in thermal contact with the first resistance temperature detector, wherein the first catalyst interacts with the gas phase substances; a reference element in contact with the gas phase substances, comprising; a second resistance temperature detector which functions as a temperature detector and a variable resistance heater, and a second catalyst in thermal contact with the second resistance temperature detector, wherein the second catalyst interacts with the gas phase substances; a thermal barrier separating the sensing element from the reference element; and a heat flow monitor connected to both the sensing and reference elements for measuring any change in heat flow for the sensing element relative to the reference element by monitoring the change in electric power needed to maintain the first resistance temperature detector at a desired temperature relative to the second resistance temperature detector. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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Specification