Laser Surface Modification Technology for Improving the Properties of Metal Oxide Semiconductor Gas Sensing Thin Films

Rou-Jhen Chen; Po-Jui Chen; Ming-Fu Chen; Wen-Tse Hsiao

Proceedings of the 2022 International Symposium on Imaging, Sensing, and Optical Memory (ISOM) and the 13th International Conference on Optics-photonics Design and Fabrication (ODF)
Technical Digest Series (Optica Publishing Group, 2022),
paper P_OTh_36

Laser Surface Modification Technology for Improving the Properties of Metal Oxide Semiconductor Gas Sensing Thin Films

Rou-Jhen Chen, Po-Jui Chen, Ming-Fu Chen, and Wen-Tse Hsiao

International Conference on Optics-Photonics Design and Fabrication 2022

Sapporo Japan
31 August–5 September 2022
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R. Chen, P. Chen, M. Chen, and W. Hsiao, "Laser Surface Modification Technology for Improving the Properties of Metal Oxide Semiconductor Gas Sensing Thin Films," in Proceedings of the 2022 International Symposium on Imaging, Sensing, and Optical Memory (ISOM) and the 13th International Conference on Optics-photonics Design and Fabrication (ODF), Technical Digest Series (Optica Publishing Group, 2022), paper P_OTh_36.

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Abstract

This research developed a laser surface modification technology employing high- speed, high-precision optical scanning for gas sensing with SnO₂ metal oxide semiconductor. Only selective surface modifications were required to obtain various film and sensor properties. A metal oxide semiconductor film that underwent laser surface modification was subjected to various nitrogen dioxide (NO₂) gas concentrations (10, 30, and 50 ppm) for testing its utility for gas response and sensing and for desorption with an ultraviolet light– emitting diode method. The developed optical gas desorption mechanism can successfully desorb the target gas from a sensing film.

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