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Photo-enhanced gas sensing of SnS2 with nanoscale defects.
Yan, Wen-Jie; Chen, Deng-Yun; Fuh, Huei-Ru; Li, Ying-Lan; Zhang, Duan; Liu, Huajun; Wu, Gang; Zhang, Lei; Ren, Xiangkui; Cho, Jiung; Choi, Miri; Chun, Byong Sun; Coileáin, Cormac Ó; Xu, Hong-Jun; Wang, Zhi; Jiang, Zhaotan; Chang, Ching-Ray; Wu, Han-Chun.
Afiliação
  • Yan WJ; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Chen DY; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Fuh HR; Department of Physics, National Taiwan University Taipei 106 Taiwan crchang@phys.ntu.edu.tw.
  • Li YL; Department of Chemical Engineering & Materials Science, Yuan Ze University Taoyuan City 320 Taiwan hrfuh@saturn.yzu.edu.tw.
  • Zhang D; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Liu H; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Wu G; Institute of Plasma Physics, Chinese Academy of Sciences Hefei 230031 P. R. China.
  • Zhang L; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Ren X; School of Chemical Engineering and Technology, Tianjin University Tianjin 300072 P. R. China.
  • Cho J; School of Chemical Engineering and Technology, Tianjin University Tianjin 300072 P. R. China.
  • Choi M; Western Seoul Center, Korea Basic Science Institute Seoul 03579 Republic of Korea.
  • Chun BS; Chuncheon Center, Korea Basic Science Institute Chuncheon 24341 Republic of Korea.
  • Coileáin CÓ; Division of Industrial Metrology, Korea Research Institute of Standards and Science Daejeon 305-340 Republic of Korea.
  • Xu HJ; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Wang Z; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Jiang Z; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Chang CR; School of Physics, Beijing Institute of Technology Beijing 100081 P. R. China wuhc@bit.edu.cn.
  • Wu HC; Department of Physics, National Taiwan University Taipei 106 Taiwan crchang@phys.ntu.edu.tw.
RSC Adv ; 9(2): 626-635, 2019 Jan 02.
Article em En | MEDLINE | ID: mdl-35517585
ABSTRACT
Recently a SnS2 based NO2 gas sensor with a 30 ppb detection limit was demonstrated but this required high operation temperatures. Concurrently, SnS2 grown by chemical vapor deposition is known to naturally contain nanoscale defects, which could be exploited. Here, we significantly enhance the performance of a NO2 gas sensor based on SnS2 with nanoscale defects by photon illumination, and a detection limit of 2.5 ppb is achieved at room temperature. Using a classical Langmuir model and density functional theory simulations, we show S vacancies work as additional adsorption sites with fast adsorption times, higher adsorption energies, and an order of magnitude higher resistance change compared with pristine SnS2. More interestingly, when electron-hole pairs are excited by photon illumination, the average adsorption time first increases and then decreases with NO2 concentration, while the average desorption time always decreases with NO2 concentration. Our results give a deep understanding of photo-enhanced gas sensing of SnS2 with nanoscale defects, and thus open an interesting window for the design of high performance gas sensing devices based on 2D materials.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2019 Tipo de documento: Article
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2019 Tipo de documento: Article