The adsorption of bromochlorodifluoromethane on pristine, Al, Ga, P, and As-doped boron nitride nanotubes: A study involving PBC-DFT, NBO analysis, and QTAIM

Y. Abdullah, Hewa (2020) The adsorption of bromochlorodifluoromethane on pristine, Al, Ga, P, and As-doped boron nitride nanotubes: A study involving PBC-DFT, NBO analysis, and QTAIM. Computational and Theoretical Chemistry. ISSN 2210271X

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Abstract

Nanostructures such as nanotubes and nanosheets are widely used in the medical industry for drug delivery, prevention, and treatment. These nanostructures are used as sensors or carriers by adsorbing functional groups. In this study, the adsorption rates of the bromochlorodifluoromethane (CBrClF2) molecule, which is used as an effective gaseous fire suppression agent, onto the outer surfaces of pristine, Al, Ga, P, and As-doped boron nitride nanotubes are investigated. A periodic boundary condition density functional theory method using both Perdew, Burke, and Ernzerhof exchange–correlation (PBEPBE) and B3LYP-D3 functionals together with the 6-311G (d) basis set were used. Subsequently, the B3LYP, CAM-B3LYP, ωB97XD, and M06-2X functionals with the 6-311G (d) basis set were used to consider the single-point energies. Natural bond orbital analysis and the quantum theory of atoms in molecule were considered using the PBEPBE/6-311G (d) method, and the results were compatible with the expected electronic properties, namely the Wiberg bond index, natural charge, natural electron configuration, donor–acceptor natural bond orbital interactions, and second-order perturbation energies. All the calculations and analyses denoted that the adsorption of the CBrClF2 molecule onto the surfaces of pristine boron nitride nanotubes occurred due to physical adsorption and van der Waals interactions. Among the doped nanotubes, the Al nanotube exhibited the highest adsorption energy compared to the other doped nanotubes.

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