论文信息 - Hydrogen-selective thermoelectric gas sensor

Hydrogen-selective thermoelectric gas sensor

Abstract A thermoelectric (TE) hydrogen gas sensor was fabricated by depositing a platinum catalyst thin film on the half surface of nickel oxide thick film. When it was exposed to combustible gas diluted by synthetic air, the catalyst layer converts hydrogen and oxygen effectively to water vapor, and give out heat energy, resulting temperature difference across the sensor, and consequently voltage signal. The voltage signal for the 3% H2/air mixture gas at temperature 100 °C, was 4.65 mV while that for 3% CH3OH/air mixture gas was 0.31 mV. The lower detection limit (LDL) of the sensor at 100 °C was lower than 500 ppm, with an excellent linearity of signal voltage to the hydrogen gas concentration.

[1] P. T. Moseley,et al. Tin dioxide gas sensors: use of the seebeck effect , 1985 .

[2] Henry Baltes,et al. Future of IC microtransducers , 1996 .

[3] W. Shin,et al. Li-Doped Nickel Oxide as a Thermoelectric Material , 1999 .

[4] Li- and Na-doped NiO thick film for thermoelectric hydrogen sensor , 2002 .

[5] S. Kanzaki,et al. Thin-film Li-doped NiO for thermoelectric hydrogen gas sensor , 2002 .

[6] Woosuck Shin,et al. High performance p-type thermoelectric oxide based on NiO , 2000 .

[7] C. Reddy,et al. Room Temperature Hydrogen Sensor Based on SnO2 : La2 O 3 , 2000 .

[8] Fumihiko Kannari,et al. Thermoelectric Thick-Film Hydrogen Gas Sensor Operating at Room Temperature : Electrical Properties of Condensed Matter , 2001 .