Simulation of Interaction Processes of C20 Fullerene with Graphene

IF 1 Q3 PHYSICS, MULTIDISCIPLINARY
I. Yadgarov, Farid F. Umarov, Asroriddin S. Kosimov, Khayitmurod I. Jabborov, Shodibek Y. Aminov
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Abstract

Graphene, a carbon sheet one atom thick, with carbon atoms arranged in a two-dimensional honeycomb configuration, has a number of intriguing properties. Fullerenes are a promising material for creating electro-active elements in solar cells and active layers in thin-film organic transistors. A computer model of the C20 fullerene molecule was constructed using the energy minimization method with the second-generation Brenner potential (REBO). A computer model of "infinite" defect-free graphene was built, designed to consider the process of adsorption of a C20 fullerene molecule on its surface. To study adsorption process computer models of fullerene and "infinite" graphene were approached to the required distance with a different set of geometric arrangement of fullerene with respect to the graphene surface. It has been established that the adsorption of fullerene C20 on the surface of graphene can be carried out in three different ways, differing in the number of interacting fullerene and graphene atoms. The binding energies and adsorption lengths for C20 fullerene molecules adsorbed on the graphene surface in different ways are calculated. The way of adsorption corresponding to the highest binding energy and the shortest adsorption length was revealed.
模拟 C20 富勒烯与石墨烯的相互作用过程
石墨烯是一种一原子厚的碳薄片,碳原子呈二维蜂窝状排列,具有许多引人入胜的特性。富勒烯是一种很有前途的材料,可用于制造太阳能电池的电活性元件和薄膜有机晶体管的活性层。利用第二代布伦纳电势(REBO)的能量最小化方法,构建了 C20 富勒烯分子的计算机模型。建立的 "无限 "无缺陷石墨烯计算机模型旨在考虑 C20 富勒烯分子在其表面的吸附过程。为了研究吸附过程,富勒烯和 "无限 "石墨烯的计算机模型被接近到所需的距离,富勒烯相对于石墨烯表面的几何排列方式各不相同。结果表明,富勒烯 C20 在石墨烯表面的吸附可以通过三种不同的方式进行,富勒烯和石墨烯原子的相互作用数量各不相同。计算了以不同方式吸附在石墨烯表面的 C20 富勒烯分子的结合能和吸附长度。揭示了与最高结合能和最短吸附长度相对应的吸附方式。
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来源期刊
East European Journal of Physics
East European Journal of Physics PHYSICS, MULTIDISCIPLINARY-
CiteScore
1.10
自引率
25.00%
发文量
58
审稿时长
8 weeks
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