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Phenol interaction with different nano-cages with and without an electric field: A DFT study

机译：带有和不带有电场的不同纳米笼中苯酚的相互作用：DFT研究

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The adsorption properties of the phenol molecule (C6H5OH) upon the outer surfaces of C24, B12P12, B12N12, Al12N12, and Al12P12 were investigated using density functional theory calculations. Our calculations reveal that the phenol molecule can be chemisorbed on the sidewalls of Al12N12 and Al12P12 with adsorption energies of -1.03 and -0.76 eV, respectively. While the adsorption energy of C6H5OH on Al12N12 is typically more than that of Al12P12 cluster. We also considered the adsorption of the C6H5OH molecule under a strong electric field over Al12N12. The results indicate that Al12N12 has high sensitivity to the phenol molecule in the presence of an electric field. © Springer Science+Business Media 2014.

机译：使用密度泛函理论计算研究了苯酚分子（C6H5OH）在C24，B12P12，B12N12，Al12N12和Al12P12外表面的吸附性能。我们的计算表明，苯酚分子可以分别以-1.03和-0.76 eV的吸附能被化学吸附在Al12N12和Al12P12的侧壁上。而C6H5OH在Al12N12上的吸附能通常大于Al12P12簇的吸附能。我们还考虑了在Al12N12上的强电场下C6H5OH分子的吸附。结果表明，Al12N12在电场存在下对酚分子具有很高的敏感性。 ©Springer Science + Business Media 2014。

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Soltani A.; Baei M.T.; Taghartapeh M.R.; Lemeski E.T.; Shojaee S.;
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年度 2015
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Phenol interaction with different nano-cages with and without an electric field: A DFT study

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