Graphene on Cu(111) at the nonzero temperatures: Molecular dynamic simulation

Sidorenkov A. V.; Kolesnikov S. V.; Saletsky A. M.

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Graphene on Cu(111) at the nonzero temperatures: Molecular dynamic simulation

机译：在非零温度下Cu（111）的石墨烯：分子动态模拟

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We present results of molecular dynamic simulation of continuous graphene monolayer on Cu(111). In this paper, we investigate the dependencies of the average binding energy and the average binding distance on the temperature. The interaction between carbon and copper atoms was described by Lennard-Jones potential. It is shown that the binding energy practically remains constant in a wide range of temperatures 0-800 K. However, in the same temperature range, the binding distance of graphene on Cu(111) surface has a linear dependence on temperature. The dependence of the linear thermal expansion coefficient of the binding distance on Lennard-Jones parameters has been calculated. We suggest a simple theoretical model to explain this dependence qualitatively.

机译：我们呈现Cu（111）上连续石墨烯单层的分子动态模拟的结果。在本文中，我们研究了平均结合能量的依赖性和对温度的平均结合距离。碳和铜原子之间的相互作用由Lennard-Jones潜力描述。结果表明，在宽范围0-800k的宽范围内，结合能量实际上保持恒定。然而，在相同的温度范围内，石墨烯对Cu（111）表面的结合距离具有线性依赖性对温度的线性依赖性。已经计算了Lennard-Jones参数对绑定距离的线性热膨胀系数的依赖性。我们建议一个简单的理论模型来解释这种依赖性。

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来源
《Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics》 |2017年第31期|共9页
作者
Sidorenkov A. V.; Kolesnikov S. V.; Saletsky A. M.;
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作者单位

Lomonosov Moscow State Univ Fac Phys Moscow 119991 Russia;

Lomonosov Moscow State Univ Fac Phys Moscow 119991 Russia;

Lomonosov Moscow State Univ Fac Phys Moscow 119991 Russia;

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原文格式 PDF
正文语种 eng
中图分类应用物理学;
关键词
Graphene; classical molecular dynamics;

机译：石墨烯;古典分子动力学;

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1. Graphene on Cu(111) at the nonzero temperatures: Molecular dynamic simulation [J] . Sidorenkov A. V., Kolesnikov S. V., Saletsky A. M. Modern Physics Letters, B. Condensed Matter Physics, Statistical Physics, Applied Physics . 2017,第31期

机译：在非零温度下Cu（111）的石墨烯：分子动态模拟
2. A molecular dynamics simulation of the graphene growth on Cu(111) surface [J] . Zhang Lan, Zhu Yongchao, Teng Wenrui, Computational Materials Science . 2017,第期

机译：Cu（111）表面上石墨烯生长的分子动力学模拟
3. Molecular dynamics simulation of graphene on Cu (111) with different Lennard-Jones parameters [J] . Sidorenkov Alexander V., Kolesnikova Sergey V., Saletsky Alexander M. The European physical journal, B. Condensed matter physics . 2016,第10期

机译：不同Lennard-Jones参数Cu（111）的石墨烯的分子动力学模拟
4. First principles molecular dynamics simulation of graphene growth on Nickel (111) surface [C] . R Arifin, Y Shibuta, K Shimamura International Conference on Innovation in Engineering and Vocational Education . 2016

机译：第一个原理石墨烯生长的分子动力学模拟镍（111）表面
5. An STM Study of Metal Nanoclusters and Molecular Fragments on Graphene/Cu(111) [D] . Soy, Esin 2018

机译：石墨烯/ Cu（111）上的金属纳米团簇和分子碎片的STM研究
6. H(D) → D(H) + Cu(111) collision system: Molecular dynamics study of surface temperature effects [O] . Can D. Vurdu, Ziya B. Güvenç -1

机译：H（D）→D（H）+ Cu（111）碰撞系统：表面温度效应的分子动力学研究
7. Rotation misorientated graphene moire superlattices on Cu(111) : classical molecular dynamics simulations and scanning tunneling microscopy studies [O] . Süle Péter, Szendrői Miklós, Hwang C., 2014

机译：Cu（111）上旋转取向错误的石墨烯莫尔条纹超晶格：经典分子动力学模拟和扫描隧道显微镜研究
8. Recombinative Desorption Dynamics: Molecular Hydrogen from Cu(110) and Cu(111) [R] . Kubiak, G. D., Sitz, G. O., Zare, R. N. 1985

机译：重组解吸动力学：Cu（110）和Cu（111）的分子氢

Graphene on Cu(111) at the nonzero temperatures: Molecular dynamic simulation

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