149 / 2021-04-18 11:56:06
Gas-sensitive Properties of Adsorping Toxic Gases on Antimonene Nanoribbons
First principles calculation; Toxic gas molecules; Adsorption capacity; Sensitivity
Final Paper
Xueyu Tang / ChangSha university of science and technology
    It is well known that the detection of toxic gas is crucial for the protection of ecological enviornment and the healthy of human beings. Here, we investigated the adsorption capacity of six toxic gas molecules(PH3,H2S, SO2, NH3, NO and NO2) on zigzag antimonene nanoribbons (ZSbNR), based on the first principles calculation method. The calculation results revealed that the PH3 and H2S are weak adsorption on ZSbNR, while NO2 forms a chemical bond with ZSbNR.  It is also found that the stronng adsorption energy and obvious charge transfer for SO2, NO and NH3, which is benefit to detect them.  Finally, we calculated the transport properties of these adsorption systems, and found that the  significant changes in current for SO2, NO and NH3 before and after adsorption, where NO shows the largest change with a sensitivity of 245%.  Based on the above results, it is extremely possible that ZSbNR can be used as a  gas-sensing devices for SO2, NO and NH3.
Important Date
  • Conference Date

    Jul 10

    2021

    to

    Jul 12

    2021

  • May 10 2021

    Draft paper submission deadline

  • Jul 06 2021

    Registration deadline

Sponsored By
Changsha University of Science & Technology
Supported By
IEEE Electron Devices Society
IEEE
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