论文信息 - A low power catalytic combustion gas sensor based on a suspended membrane microhotplate

A low power catalytic combustion gas sensor based on a suspended membrane microhotplate

A microhotplate based catalytic combustion gas sensor with low power consumption employing Pd-Pt/ γ-Al2O3 is presented in this paper. The microhotplate was fabricated on a silicon substrate by micromachining process. And the sensitive material Pd-Pt and compensation material γ-Al2O3 were prepared by sol-gel process. This sensor has been tested under constant working voltage to methane gas and achieved good performance. With the increasing of working voltage, both the output signal and power consumption of the sensor increased. The ratio of the sensitivity to power consumption was considered as an optimizing factor for selecting a rational working voltage. The sensor output signal showed a fairly linear relationship to the methane gas concentration. It achieved a sensitivity of 2mV/%CH4 to 50% LEL methane gas at a low power of 52mW.

[1] Pierre Temple-Boyer,et al. Realization and performance of thin SiO2/SiNx membrane for microheater applications , 1998 .

[2] Pasqualina M. Sarro,et al. Microhotplates with TiN heaters , 2008 .

[3] P. Moseley,et al. Solid state gas sensors , 1997 .

[4] F. Solzbacher,et al. A modular system of SiC-based microhotplates for the application in metal oxide gas sensors , 2000 .

[5] Makoto Egashira,et al. Identification and quantification of alcohol by a micro gas sensor based on adsorption and combustion , 2004 .

[6] Duk-Dong Lee,et al. A microsensor array with porous tin oxide thin films and microhotplate dangled by wires in air , 2002 .

[7] J. Suehle,et al. Microhotplate Platforms for Chemical Sensor Research , 2001 .