Afridi, M.
, Montgomery, C.
, cooper-Balis, E.
, Semancik, S.
, Geist, J.
and Fatah, A.
(2009),
CMOS Microhotplate Technology for Chemical and Biological Agent Detection, Defense Technical Information Center (DTIC), New Orleans, LA
(Accessed April 17, 2024)
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CMOS Microhotplate Technology for Chemical and Biological Agent Detection
Published
Author(s)
, , Elliott cooper-Balis, , ,
Abstract
In this paper we describe microhotplates that can serve as platforms for gas sensors of potential use for homeland security and other gas sensing applications. A brief review of the fabrication of microhotplate precursors in a CMOS-compatible technology and the post-processing steps required to convert them into fully functional gas-sensors is presented. We show that polysilicon, which is commonly used as both a heater and a microhotplate temperature sensor, may not be suitable for the latter use at temperatures from ambient to around 450 °C. On the other hand, the microhotplate thermal efficiency characteristic may be a suitable temperature-sensor mechanism over this same temperature rangeProceedings Title
Defense Technical Information Center (DTIC)
Conference Dates
November 17-21, 2008
Conference Location
New Orleans, LA
Conference Title
Chemical and Biological Defence Physical Science and Technology Conference 2008 Conference
(CBD PS&T 2008 Conference)
(CBD PS&T 2008 Conference)
Pub Type
Conferences
Keywords
CMOS, Microhotplate, Temperature Sensor, Calibration
Citation
Created March 16, 2009, Updated February 19, 2017