4.4 Article

Micro-gas sensor with a suspended micro-heater for ammonia gas detection

Journal

Publisher

IOP Publishing Ltd
DOI: 10.1088/1361-6439/aca4db

Keywords

ammonia; micro-electromechanical systems; micro-heater; micro-gas sensor; tungsten trioxide

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This research develops an ammonia micro-gas sensor using micro-electromechanical systems (MEMS) technology. It integrates a suspended micro-heater on the same chip to optimize the operating temperature. The sensor is fabricated through photolithography and thin-film deposition processes. To reduce heat loss, anisotropic wet etching of MEMS technology is used to create a suspension structure. Tungsten trioxide is employed as the sensing film for resistance measurement. The developed micro ammonia sensor has a chip size of 5 mm x 5 mm and exhibits a high sensing response, low detection limit, and small size.
In this research, the ammonia micro-gas sensor is developed by micro-electromechanical systems (MEMS) technology. A suspended micro-heater is also integrated on the same chip to provide the optimal operating temperature during sensing. The main processing steps of the implemented micro-sensor in this study involve five photolithographic and seven thin-film deposition processes. In addition, in order to reduce the heat loss of the heater, this study uses anisotropic wet etching of MEMS technology to create a suspension structure that can reduce the heat conduction of silicon. Finally, tungsten trioxide is used as a sensing film to measure the variation of resistance. The chip size of the proposed micro ammonia sensor developed in this paper is 5 mm x 5 mm. At the concentration of 5 ppm ammonia, the sensing response can reach 252%, and the response time is 30 s. The lowest detection limit reaches 40 ppb. In summary, the micro-ammonia gas sensor with a micro-heater developed in this paper has the advantages of high response value, low detection limit and small size.

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