微机械催化燃烧氢气传感器

The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2013-04-07 DOI:10.1109/NEMS.2013.6559732

Xifeng Liu, Hanpeng Dong, S. Xia

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引用次数: 1

摘要

采用MEMS技术制备了催化燃烧H2传感器。用电子束蒸发法沉积了氧化铪薄膜作为绝缘层。采用化学气相沉积(CVD)法制备了半导体燃烧催化剂氧化锡(SnO2)层。将半导体材料应用于催化燃烧气体传感器是一种新颖的方法。在900℃时，HfO2薄膜的电阻率约为2.4×1012 Ω·cm。传感元件和参考元件都可以连接在合适的电路中，例如具有低功耗的惠斯通配置。在工作电压为4V时，催化燃烧传感器对H2有较高的响应，对H2在体积浓度0 ~ 4%范围内具有较高的相对灵敏度和良好的线性关系。实现了微机械催化燃烧气体传感器的一致性好、精度高。

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Micromachined catalytic combustion hydrogen gas sensor

A catalytic combustion H2 sensor has been fabricated by using MEMS technology. The application of hafnium oxide thin films as insulating layer has been deposited by electron beam evaporation. The semiconductor combustion catalyst tin oxide (SnO2) layer was prepared by chemical vapor deposition (CVD).It is a novel application of semiconductor material to catalytic combustion gas sensor. The resistivity of HfO2 thin film is about 2.4×1012 Ω·cm at 900°C. Both the sensing elements and the reference elements could be connected in a suitable circuit such as a Wheatstone configuration with low power consumption. The catalytic combustion sensor shows high response to H2 at operating voltage of 4V and has a higher relative sensitivity and a good linearity for the concentrations of H2 ranging from 0 to 4% in volume. Good consistency and high accuracy of the micro machined catalytic combustion gas sensor were achieved.

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The 8th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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