Relaxations of methylpyridinone tautomers at the C60 surfaces: DFT studies

IF 1.2 Q4 NANOSCIENCE & NANOTECHNOLOGY
Elaheh Naderi, M. Mirzaei, L. Saghaie, G. Khodarahmi, O. Gulseren
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引用次数: 13

Abstract

* Corresponding Author Email: mdmirzaei@pharm.mui.ac.ir How to cite this article Naderi E, Mirzaei M, Saghaie L, Khodarahmi Gh, Gülseren O. Relaxations of methylpyridinone tautomers at the C60 surfaces: DFT studies. Int. J. Nano Dimens., 2017; 8(2): 124-131., DOI: 10.22034/ijnd.2017.24878 Abstract Density functional theory (DFT) based calculations have been performed to examine the relaxations of tautomers of 4–hydroxy–6–methylpyridin–2(1H)–one (MPO), as a representative of pyridinone derivatives, at the fullerene (C60) surfaces. Optimized molecular properties including energies, dipole moments and atomic scale quadrupole coupling constants (CQ) have been evaluated to investigate the structural and electronic properties of the models. The structural configurations of tautomers show different relaxations at the C60 surface yielding different magnitudes of total and binding energies. Moreover, deformation of each tautomer due to relaxation at the C60 surface with respect to the initial singular structure has been examined. Complimentary parameters of energy gaps and dipole moments exhibit the effects of relaxations at the C60 surface for the MPO counterparts. Atomic scale CQ properties also indicate that the electronic properties of atoms show significant changes for tautomers and hybrid systems. As a final note, the tautomeric structures in singular and hybrid forms exhibit different electronic properties because of effects of interactions with C60, especially for the interaction regions.
甲基吡啶酮互变异构体在C60表面的弛豫:DFT研究
Naderi E, Mirzaei M, Saghaie L, Khodarahmi Gh, glseren O.甲基吡啶酮互变异构体在C60表面的弛化:DFT研究。Int。J.纳米尺寸。, 2017;8(2): 124 - 131。摘要基于密度泛函理论(DFT)的计算已经进行了检查作为吡啶酮衍生物代表的4 -羟基- 6 -甲基吡啶- 2(1H) - 1 (MPO)的互变异构体在富勒烯(C60)表面的松弛。优化了分子性能,包括能量、偶极矩和原子尺度四极耦合常数(CQ),以研究模型的结构和电子特性。互变异构体的结构构型在C60表面表现出不同的弛豫,产生不同大小的总能和结合能。此外,由于C60表面相对于初始奇异结构的弛豫,每个互变异构体的变形已经被检查。能量间隙和偶极矩的互补参数表现出C60表面的弛豫效应。原子尺度的CQ性质也表明原子的电子性质在互变异构体和杂化体系中表现出显著的变化。最后需要说明的是,由于与C60相互作用的影响,奇异和杂化形式的互变异构结构表现出不同的电子性质,特别是在相互作用区域。
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来源期刊
international journal of nano dimension
international journal of nano dimension NANOSCIENCE & NANOTECHNOLOGY-
CiteScore
2.80
自引率
20.00%
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