The interaction of phosgene gas with different BN nanocones: DFT studies
Abstract
We investigated the interaction of a phosgene molecule with four kinds of BN nanocones with 60°, 120°, 180° and 240° disclination angles using density functional theory calculations. Based on the results, the phosgene molecule tends to be adsorbed on the apex of all BN nanocones with adsorption energies of -11.1, -4.6, -16.6, and -14.8 kcal/mol, respectively. It was predicted that both of low coordination B atom, and Bsbnd B antiphase defects stabilize the LUMO level of the BN nanocones, and make them more reactive to phosgene gas. The electrical conductivity of the BN nanocone with 60° disclination angle will not change at the presence of the phosgene; and it cannot be used as a sensor. But the electrical conductivity of the BN nanocones with 120°, 180° and 240° disclination angles significantly increases. Therefore, these nanocones may be promising candidates for application in phosgene sensors. We found that the order of electronic sensitivity of the BN nanocones toward the phosgene gas is as follows: BN-240 > BN-120 > BN-180 » BN-60. The recovery time for the BN nanocones with 60°, 120°, 180° and 240° disclination angles is about 4.5 × 10-5, 7.8 × 10-10, 0.48, and 0.02 s at 298 K, respectively, indicating that the BN nanocones benefit from a short recovery time as chemical sensors.
- Publication:
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Solid State Communications
- Pub Date:
- January 2018
- DOI:
- 10.1016/j.ssc.2017.10.011
- Bibcode:
- 2018SSCom.269...23H
- Keywords:
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- A. BN nanocones;
- B. Adsorption;
- D. Electronic properties;
- E. DFT