Trimethylamine sensing properties of MoO3 nanofibers

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作者
Song Zou
Jingxuan Wu
Bo Wang
Qingsong Luo
Wenjun Wang
Zhenxing Wang
Yu Wan
Changhao Feng
机构
[1] Southwest University,College of Electronic and Information Engineering
[2] Tohoku University,Graduate School of Engineering
来源
Journal of Materials Science: Materials in Electronics | 2023年 / 34卷
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摘要
The efficient and reliable monitoring of trimethylamine (TMA) is significant to environmental protection and human healthcare. The Molybdenum trioxide (MoO3) nanofibers can be regarded as a promising sensing material with a low-detection limit for trimethylamine. MoO3 nanofibers with controlled morphology were synthesized by adjusting electrospinning and calcination conditions. MoO3 with the second-step calcination time is 90 s, which shows excellent trimethylamine sensing properties. The response of sensors based on M-90 nanofibers to 50 ppm acetone is 82.3 at 175 °C. And it has excellent selectivity to TMA. The sensors show good selectivity to TMA, compared to other gases to be measured. Finally, a detailed study of the sensing mechanism of MoO3 is conducted to analyze the reasons for exhibiting high response to TMA.
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