Advanced NO2 Gas Sensor Fabrication through UV Laser-Induced Selective Reduction Laser Sintering

Shaogang Wang1,2; Qihang Zong1; Huiru Yang2; Qianming Huang2; Huaiyu Ye1,2; Paddy French1

10.1109/NEMS60219.2024.10639835

2024-05-05

2474-3747

979-8-3503-5984-8

2024 IEEE 19th International Conference on Nano/Micro Engineered and Molecular Systems (NEMS)

2-5 May 2024

Kyoto, Japan

This study introduces an innovative approach for fabricating flexible nitrogen dioxide (NO2) gas sensors based on In2O3 nanoparticles (NPs) using selective reduction laser sintering (SRLS) technology. The SRLS technology enables specific chemical reduction reactions during the sintering process, achieving fabrication and control of oxygen vacancy defects and the porous structure in the In2O3 sintering region. The sensor exhibits exceptionally high sensitivity, fast response/recovery times, and superior selectivity for NO2 gas detection, particularly at room temperature. Compared with traditional NO2 gas sensor fabrication methods, this technology not only provides a potential way to fabricate highperformance NO2 gas sensors but also further expands the application potential of laser direct writing (LDW) technology in the fields of advanced materials and sensor fabrication.

其他

1.The Faculty of EEMCS, Delft University of Technology, Delft, Netherlands
2.The School of Microelectronic, Southern University of Science and Technology, Shenzhen, China

Shaogang Wang,Qihang Zong,Huiru Yang,et al. Advanced NO2 Gas Sensor Fabrication through UV Laser-Induced Selective Reduction Laser Sintering[C],2024.