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چکیده
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The adsorption and storage properties of the chalcogenide H2S gas by pentagonal B2C nanosheet (penta-B2C) have been explored utilizing periodic density functional theory. The present results disclose that pristine penta-B2C nanosheet can take up eight H2S molecules with an H2S capture capacity of 50.28 wt%. Average adsorption energy values for the 1H2S/penta-B2C, 2H2S/penta-B2C, 3H2S/penta-B2C, 4H2S/ penta-B2C, and 8H2S/penta-B2C complexes are �0.876, �0.808, �0.725, �0.721, and �0.535 eV, respectively. The band structure and the total and partial density of states analyses displayed the reduction in the band gap of the penta-B2C nanosheet after H2S adsorption of about 13%–25%. Hirshfeld charge analysis reports the charge transfer from the H2S molecules toward the penta-B2C sheet. As the number of the adsorbed H2S molecules increases, the amount of charge transferred increases. The molecular dynamics (MD) calculations results for the pristine penta-B2C nanosheet and ultimate 8H2S/penta-B2C complex confirm their thermal stability at 300 K. Based on the reported analysis, penta-B2C nanosheet can be introduced as an investible substrate for efficient H2S capture and storage
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