利用DFT和MO计算,研究了氟他胺在掺杂Zn的SWCNT上吸附的物理化学特性(5,5)

A. Ghasemi̇, F. Ashrafi̇, Taj Mohammad Tavasoli, Masoumeh Hoosini, Mohammad Norouzi, Matin Karimnia, A. Sadeghi
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引用次数: 4

摘要

本研究研究了氟他胺(FLT)抗癌药物在掺杂锌的单壁碳纳米管(5,5)(swcnts -Zn(5,5))上的吸附。本研究采用密度泛函理论(DFT)和分子轨道(MO)计算方法,在气相、水和乙醇溶剂相、基态和激发态下进行。在6-311G (d, p)基组下进行B3LYP量子化学水平的DFT计算。首先,在B3LYP/6-311G (d,p)理论水平上对FLT结构进行优化。所得结果清楚地证明了优化几何结构的能量稳定性,并明显表明氟他胺在swcnts表面的吸附能性质在物理吸附范围内。随后,利用DFT方法研究了不同结构的swcnts(5,5)以及FLT在swcnts(5,5)表面的吸附。利用DFT和MO方法计算了FLT、SWCNT(5,5)、掺杂Zn的SWCNT(5,5)、HOMO和LUMO轨道的能量、间隙能和偶极矩。
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Studying physicochemical characteristics of Flutamide adsorption on the Zn doped SWCNT (5,5), using DFT and MO calculations
In this study, the adsorption of Flutamide (FLT) anticancer drug on the Zn doped single-walled carbon nanotube (5, 5) (SWCNT-Zn (5, 5)) has been investigated. This study has been performed in the gaseous phase and in water and ethanol solvents phases, in the basis and excited states, using density functional theory (DFT) and molecular orbitals (MO) calculation methods. DFT calculations performed at B3LYP quantum chemical level abs at 6-311G (d, p) basis set. Firstly, the structure of FLT was optimized at B3LYP/6-311G (d,p) theoretical level. The obtained results clearly demonstrate the energy stability of the optimized geometries and obviously show that the nature of Flutamide adsorption energy on the surface of SWCNT is in the range of the physisorption. Afterwards, the various structures of SWCNT (5, 5) and the adsorption of FLT on the outer surface of SWCNT (5, 5) was investigated using DFT method. The energies of FLT, SWCNT (5, 5), Zn doped SWCNT (5, 5), HOMO and LUMO orbitals, gap energy and dipole moments were calculated using DFT and MO methods.
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来源期刊
Eurasian Chemical Communications
Eurasian Chemical Communications CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
3.00
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