Sub-ppt NH3 detection by MoS2@sulfur nanosheets

Novel nanostructured materials are expected to revive materials for chemiresistive sensor applications. MoS2-based gas sensor is widely studied, however, which usually is capable of detecting gas at ppm level. Here, owing to the two-dimensional layered structure that facilitated the surface reaction...

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Bibliographic Details
Published in:Journal of alloys and compounds 2024-05, Vol.985, p.174070, Article 174070
Main Authors: Chen, Qili, Wang, Shan, Bai, Shuaishuai, Shen, Lihua, Peng, Jiaming, Zhang, Yufeng, Cui, Xiaoni, Yu, Chunxia, Zhang, Runlan, Li, Yuangang, Liu, Zhifang
Format: Article
Language:English
Subjects:
2D materials
Ammonia gas sensor
MoS2
S-NSs
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Summary:Novel nanostructured materials are expected to revive materials for chemiresistive sensor applications. MoS2-based gas sensor is widely studied, however, which usually is capable of detecting gas at ppm level. Here, owing to the two-dimensional layered structure that facilitated the surface reaction, sulfur nanosheets (S-NSs) was first designed to composite with MoS2 to improve the sensing performance. Because of the unique electronic and physical properties of S-NSs, the developed chemiresistive sensor based on MoS2@S-NSs nanocomposite demonstrated to realize ultrasensitive detection of NH3 at 0.1 ppt level with a response signal of 68%, and which also showed fast response and recover (9/8.7 seconds respectively) at room temperature in air. Except for the good electrical conductivity and the large adsorption site of MoS2, the excellent sensing property of S-NSs itself made the most important contribution to this appealing high sensitivity to NH3. Additionally, this study has also put forth comprehensive gas sensing mechanisms based on experimental results. In essence, this research offers an innovative materials system tailored for the highly efficient detection of NH3. •Novel layered sulfur nanosheets were reported to own better gas sensing properties than pure MoS2.•MoS2@sulfur nanosheets based gas sensor demonstrated ultrahigh sensitivity at 0.1 ppt level to detect NH3.•MoS2@sulfur nanosheets based gas sensor demonstrated fast response and recovery time with 9.0/8.7 s.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2024.174070