Covalent Functionalization of Pristine and Ga-Doped Boron Phosphide Nanotubes with Imidazole |
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| Authors: | S. Zahra Sayyad-Alangi Saeedeh Hashemian Mohammad T. Baei |
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| Affiliation: | 1. Department of Chemistry, Azadshahr Branch , Islamic Azad University , Azadshahr , Golestan , Iran;2. Department of Chemistry, Yazd Branch , Islamic Azad University , Yazd , Iran |
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| Abstract: | Abstract Density functional theory (DFT) calculations at the B3LYP/6–31G* level were performed to investigate covalent functionalization of imidazole on pristine (in gas and H2O phases) and Ga-doped BPNT models in terms of energetic, geometric, and electronic properties. The results show that imidazole, as a functional group, prefers to be adsorbed via its nitrogen atom on the pristine, GaB, and GaP nanotube models. The adsorption energy of imidazole on the (6,0) zigzag BPNT in gas and solvent phases is ?0.76 and ?1.11 eV, respectively, and about 0.38 and 0.43 electron are transferred from the imidazole to nanotube in the phases. The presence of a polar solvent increases the electron donor of imidazole molecule. The results show that Ga doping can significantly enhance the adsorption energy of imidazole on the nanotube models to about 95%. Moreover, the imidazole adsorption on the pristine and Ga-doped BPNT models has not significant changes in the energy gap of the nanotube models and it is slightly changed after covalent functionalization process. This study may provide new insight to the development of functionalized boron phosphide nanotubes for generation of the new hybrid compounds especially in drug delivery systems for virtual applications. |
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| Keywords: | Boron phosphide nanotube functional group drug delivery adsorption binding energy |
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