Adsorption, sensing, electronic and magnetic properties of phosgene (COCl2) molecule adsorbed on Nb-doped arsenene: First-principles study

In this study, using first-principles calculations, the adsorption of phosgene (COCl2) molecule on pristine arsenene (p-As) and Nb-doped arsenene (Nb–As) was investigated theoretically by means of density functional theory (DFT) calculations. The results showed that COCl2 molecule is physically adso...

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Bibliographic Details
Published in:Solid state communications 2022-12, Vol.357, p.114975, Article 114975
Main Authors: Chang, Zheng, Mebed, Abdelazim M., Mushtaq, Muhammad, Ali, H. Elhosiny, Muhammad, Iltaf, Choudhary, Nidhi, Algethami, Norah, Faizan, Muhammad, Laref, Amel, Al-Hosiny, N.M.
Format: Article
Language:English
Subjects:
Arsenene
First-principles
Gas sensing
Nb-doping
Phosgene
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Summary:In this study, using first-principles calculations, the adsorption of phosgene (COCl2) molecule on pristine arsenene (p-As) and Nb-doped arsenene (Nb–As) was investigated theoretically by means of density functional theory (DFT) calculations. The results showed that COCl2 molecule is physically adsorbed with no significant effect on the electronic properties of arsenene. The introduction of Nb-atom into arsenene turned it to a magnetic semiconductor with a magnetic moment of 2.0 μB. The Nb-As system demonstrated strong interaction toward the gas molecule. The COCl2 molecule was chemically adsorbed on Nb–As accompanied by large adsorption energy (up to −2.87 eV) and charge transfer from the adsorbent to the molecule. Furthermore, the work function and electrical conductivity of Nb–As were found significantly tuned by the adsorption of phosgene molecule, promising the potential of Nb–As for sensing toxic phosgene gas. •Adsorption of phosgene gas molecule on pristine and Nb-doped arsenene was investigated theoretically.•The molecule showed physical adsorption on pristine arsenene.•The molecule was chemically adsorbed on Nb-doped arsenene..
ISSN:0038-1098
1879-2766
DOI:10.1016/j.ssc.2022.114975