On the Use of Graphene Nanosheets for Drug Delivery: A Case Study of Cisplatin and Some of Its Analogs
Graphene (GN) nanosheets have been widely exploited in biomedical applications as potential nanocarriers for various drugs due to their distinct physical and chemical properties. In this regard, the adsorption behavior of cisplatin (<i>cis</i>PtCl<sub>2</sub>) and some of its...
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| Main Authors: | , , , , , , , , |
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| Format: | Book |
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MDPI AG,
2023-06-01T00:00:00Z.
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| Summary: | Graphene (GN) nanosheets have been widely exploited in biomedical applications as potential nanocarriers for various drugs due to their distinct physical and chemical properties. In this regard, the adsorption behavior of cisplatin (<i>cis</i>PtCl<sub>2</sub>) and some of its analogs on a GN nanosheet was investigated in perpendicular and parallel configurations by using density functional theory (DFT). According to the findings, the most significant negative adsorption energies (<i>E</i><sub>ads</sub>) within the <i>cis</i>PtX<sub>2</sub>⋯GN complexes (where X = Cl, Br, and I) were observed for the parallel configuration, with values up to -25.67 kcal/mol at the H@GN site. Within the perpendicular configuration of the <i>cis</i>PtX<sub>2</sub>⋯GN complexes, three orientations were investigated for the adsorption process, namely, X/X, X/NH<sub>3</sub>, and NH<sub>3</sub>/NH<sub>3</sub>. The negative <i>E</i><sub>ads</sub> values of the <i>cis</i>PtX<sub>2</sub>⋯GN complexes increased with the increasing atomic weight of the halogen atom. The Br@GN site showed the largest negative <i>E</i><sub>ads</sub> values for the <i>cis</i>PtX<sub>2</sub>⋯GN complexes in the perpendicular configuration. The Bader charge transfer outcomes highlighted the electron-accepting properties of <i>cis</i>PtI<sub>2</sub> within the <i>cis</i>PtI<sub>2</sub>⋯GN complexes in both configurations. The electron-donating character of the GN nanosheet increased as the electronegativity of the halogen atom increased. The band structure and density of state plots revealed the occurrence of the physical adsorption of the <i>cis</i>PtX<sub>2</sub> on the GN nanosheet, which was indicated by the appearance of new bands and peaks. Based on the solvent effect outlines, the negative <i>E</i><sub>ads</sub> values generally decreased after the adsorption process in a water medium. The recovery time results were in line with the <i>E</i><sub>ads</sub> findings, where the <i>cis</i>PtI<sub>2</sub> in the parallel configuration took the longest time to be desorbed from the GN nanosheet with values of 61.6 × 10<sup>8</sup> ms at 298.15 K. The findings of this study provide better insights into the utilization of GN nanosheets in drug delivery applications. |
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| Item Description: | 10.3390/pharmaceutics15061640 1999-4923 |