Abstract
Current crowding effects on the metal electrode and temperature uniformity on the tin oxide nanoscale thin film in the gas sensor are two of the most important concerns. They are mostly determined by the current density distribution of the heater and the temperature distribution of the gas sensing film. In order to improve the reliability and selectivity of the gas sensor, the geometry of the heater is optimized in this paper. Structures of heaters and tin oxide thin film gas sensors are modeled for optimization using ANSYS™.
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