A Single Microcantilever-Type Gas Sensor with Enhanced Sensitivity to Ethanol by Sputtering ZnO with Au Embedded in O2 Atmosphere

Ruicheng Liu, Dongcheng Xie, G. Adedokun, Feng Xue, Lei Xu, Feng Wu
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Abstract

This paper proposes a microcantilever-type zinc oxide (ZnO) gas sensor fabricated using typical micro-electro-mechanical system (MEMS) process. To achieve low power consumption, we developed a long narrow single cantilever beam and the sensing region is at the free end of it. ZnO was sputtered under the atmosphere of O2 as the sensing layer. And a thin Au buried layer was deposited to form the “sandwiched” structure of a thin Au layer between two ZnO layers. Ethanol, as a typical volatile gas, was chosen to verify the performance of the proposed sensor. The results indicate that the “sandwiched” sensing layer shows higher response to ethanol compared with single-layer ZnO, and the best sensitivity to 100 ppm ethanol is 7.11. Besides, the response time is 12 s and the sensor consumes a low power consumption of only 5.81 mW.
在O2气氛中溅射ZnO和Au增强乙醇灵敏度的单微悬臂式气体传感器
提出了一种采用典型微机电系统(MEMS)工艺制作的微悬臂式氧化锌(ZnO)气体传感器。为了实现低功耗,我们开发了一种狭长的单悬臂梁,传感区域位于其自由端。ZnO作为传感层在O2气氛下溅射。在两层ZnO之间沉积了一层薄的Au埋层,形成了薄Au层的“三明治”结构。以乙醇为典型挥发性气体,对传感器的性能进行了验证。结果表明,与单层ZnO相比,“夹层”传感层对乙醇的响应更高,对100 ppm乙醇的最佳灵敏度为7.11。传感器的响应时间为12 s,功耗仅为5.81 mW。
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