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Abstract
This study utilized DFT calculations to evaluate the interaction between SO2 gas and the surface of a B22 nanocluster decorated with Sc and Ti atoms as a chemical sensor. The optimized and electronic characteristics of pristine B22 and SO2 gas revealed that the pristine B22 was not a good candidate for sensing SO2 gas, and its electrical properties were not significantly altered. To improve the sensing properties of the B22 nanocluster, a decoration strategy was employed using Sc and Ti atoms. The results demonstrated that promising outcomes were achieved by decorating the B22 nanocluster with these metal atoms. After full optimization, two stable configurations were obtained between SO2 gas and the M/B22 structure; S7 (resulting from the interaction between Sc/B22 and SO2 gas) and S8 (resulting from the interaction between Ti/B22 and SO2 gas), with Eads values of −24.89 and −22.45 kcal/mol using the PBE/6-311G(d) level of theory, respectively. The electronic properties of the M/B22 structure were significantly altered after the adsorption of the SO2 molecule. The energy gap between HOMO and LUMO orbitals of S7 and S8 configurations was changed, which could be used as a chemical signal. Ultimately, we concluded that the M/B22 structure decorated with Sc and Ti atoms could be a potential sensor for the detection of SO2 gas.
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Disclosure statement
No potential conflict of interest was reported by the author(s).