基于中红外吸收的Cmos-Mems扫描热释电探测器co2气体传感

D. Ng, Chong-Pei Ha, Linfang Xu, Weiguo Chen, Y. Fu, Tantan Zhang, L. Siow, N. Jaafar, E. Ng, Yuan Gao, H. Cai, Qingxin Zhang, L. Lee
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引用次数: 2

摘要

CO2气敏响应使用我们内部制造的基于CMOS-MEMS scaln的热释电探测器测量,Sc掺杂浓度为12%。利用二氧化碳与4.26 μ m波长的光相互作用引起的二氧化碳气体的中红外吸收行为,我们基于scaln的热释电探测器成功地检测了二氧化碳浓度从5000 ppm到200 ppm的二氧化碳气体响应。气体通道长度从6厘米到10厘米不等,测量了它们各自的CO2响应。最后,以N2为参比气体,计算不同气路长度和浓度下CO2气体的气体响应百分比变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CO2Gas Sensing By Cmos-Mems Scaln-Based Pyroelectric Detector Based on MID-IR Absorption
CO2 gas sensing responses are measured using our in-house fabricated CMOS-MEMS ScAlN-based pyroelectric detector with 12% Sc doped concentration. Leveraging on mid-IR absorption behavior of CO2 gas caused by interaction of CO2 with light at 4.26 µm wavelength, our ScAlN-based pyroelectric detector successfully detect CO2 gas response ranging from CO2 concentrations of 5000 ppm down to 200 ppm. Gas channel lengths are varied from 6 cm to 10 cm and their respective CO2 responses are measured. Finally, with N2 as the reference gas, we calculate the gas response percentage change of CO2 gas at different gas channel lengths and concentration.
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