旋涂与气相沉积氧化镍检测挥发性有机化合物的比较研究

2020 IEEE Sensors Pub Date : 2020-10-25 DOI:10.1109/SENSORS47125.2020.9278881

Sai Kiran Ayyala, Jone-Him Tsang, C. Blackman, J. Covington

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引用次数: 1

摘要

开发了用于检测挥发性有机化合物(VOCs)的氧化镍(p型)传感器。在介绍的工作中，NiO传感器被制造出来，并在干燥和潮湿的条件下对丙酮、乙醇、甲苯、己烷、甲醇和正丙醇蒸汽进行测试，浓度在5到25 ppm之间。采用旋转镀膜(SC)和气相沉积(AACVD)方法将NiO薄膜沉积在氧化铝衬底上。自旋涂层NiO膜的厚度与AACVD NiO膜的厚度大致相当，分别为10.3 μm和6.7 μm。SC和AACVD传感器在350°C时均显示出最大响应。湿度对SC和AACVD传感器的响应和基线电阻均无显著影响。发现对乙醇、丙酮和甲醇蒸气的敏感性高于其他蒸气。

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Comparative study of spin-coated and vapour deposited nickel oxides for detecting VOCs

Nickel oxide (p-type) sensors are developed to detect volatile organic compounds (VOCs). In the presented work, NiO sensors are fabricated and tested towards acetone, ethanol, toluene, hexane, methanol, and n-propanol vapours between 5 to 25 parts-per-million concentrations, under both dry and humid conditions. NiO films are deposited onto alumina substrates using both spin-coating (SC) and vapour deposition (AACVD) methods. The measured thickness of the spin coated and AACVD NiO films are approximately comparable at 10.3 μm and 6.7 μm, respectively. Both SC and AACVD sensors showed a maximum response at 350°C. No significant influence of humidity was observed on sensor response and baseline resistance for either SC or AACVD sensors. The sensitivity is found to be highest for ethanol, acetone, and methanol vapours than the rest.

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2020 IEEE Sensors

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