Enhancement of methylmercaptan sensing response of WO3 semiconductor gas sensors by gas reactivity and gas diffusivity

•The Ru-loaded WO3 sensor showed good response to CH3SH.•The CH3SH response is largely dependent on the operating temperature as well as the thickness of the sensing layer.•Introducing the porosity of the sensing layer and the lamination of catalytic layer improved the CH3SH response.•The amount of...

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Bibliographic Details
Published in:Sensors and actuators. B, Chemical Chemical, 2018-11, Vol.273, p.826-833
Main Authors: Ueda, Taro, Maeda, Takuya, Huang, Zhendong, Higuchi, Kotono, Izawa, Kuniyuki, Kamada, Kai, Hyodo, Takeo, Shimizu, Yasuhiro
Format: Article
Language:English
Subjects:
CH3SH
CH3SSCH3, positively charged adsorption
Ru-loaded WO3
Semiconductor-type gas sensor
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Summary:•The Ru-loaded WO3 sensor showed good response to CH3SH.•The CH3SH response is largely dependent on the operating temperature as well as the thickness of the sensing layer.•Introducing the porosity of the sensing layer and the lamination of catalytic layer improved the CH3SH response.•The amount of positively charged adsorption onto the sensing layer influenced the CH3SH response. WO3-based semiconductor-type gas sensors were fabricated, and their sensing properties to methylmercaptan (CH3SH) were examined in this study. The Ru loading on WO3 was an effective way of an increase in the CH3SH response. In addition, the CH3SH response increased with a decrease in the operating temperature as well as with an increase in the thickness of the Ru-loaded WO3 sensing layer. The increase in the porosity of the Ru-loaded WO3 sensors, which were fabricated by utilizing polymethylmethacrylate microspheres as a template, was also effective in improving the CH3SH response, especially at a low temperature of 150 °C. In addition, the lamination of the Ru-loaded WO3 sensor with an α-Al2O3 film improved the CH3SH response at 200 °C. Moreover, the Ru loading on the WO3 powder increased the catalytic activities of CH3SH oxidation, and CH3SH was partially oxidized to CH3SSCH3 at temperatures less than 330 °C. It was suggested that the increase in the positively charged adsorption of the partially oxidized products onto the bottom part of the sensing layer is effective for enhancing the CH3SH response, especially at lower operating temperatures.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2018.06.122