New three-dimensional orthorhombic graphene structures and their elastic properties

Ming Li; Menglei Li; Fawei Zheng

doi:10.1016/j.physb.2024.415753

New three-dimensional orthorhombic graphene structures and their elastic properties

Ming Li^*, Menglei Li, Fawei Zheng

^*此作品的通讯作者

物理学院

科研成果: 期刊稿件 › 文章 › 同行评审

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摘要

In the present study, we proposed a new type of three-dimensional (3D) graphene structures, which are orthorhombic and become tetragonal for the higher symmetry cases, by using the crystal structure prediction method and classic molecular dynamics (MD) simulations. The elastic properties have been systematically investigated, which show that the elastic constants can be expressed as functions of the graphene wall length L, i.e. the hole size. Most of the elastic constants are composed of L⁻¹ and L⁻² terms, where L⁻¹ term is the main part and the less important L⁻² term comes from the joint areas between graphene walls. Our predicted orthorhombic 3D graphene structure and the scaling laws in the elastic properties provide theoretical references for future experimental studies on the superstructures of graphene.

源语言	英语
文章编号	415753
期刊	Physica B: Condensed Matter
卷	678
DOI	https://doi.org/10.1016/j.physb.2024.415753
出版状态	已出版 - 1 4月 2024

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title = "New three-dimensional orthorhombic graphene structures and their elastic properties",

abstract = "In the present study, we proposed a new type of three-dimensional (3D) graphene structures, which are orthorhombic and become tetragonal for the higher symmetry cases, by using the crystal structure prediction method and classic molecular dynamics (MD) simulations. The elastic properties have been systematically investigated, which show that the elastic constants can be expressed as functions of the graphene wall length L, i.e. the hole size. Most of the elastic constants are composed of L−1 and L−2 terms, where L−1 term is the main part and the less important L−2 term comes from the joint areas between graphene walls. Our predicted orthorhombic 3D graphene structure and the scaling laws in the elastic properties provide theoretical references for future experimental studies on the superstructures of graphene.",

keywords = "Elastic constants, Molecular dynamics simulations, Orthorhombic graphene structures, Scaling law, Tetragonal graphene structures, Theoretical modeling",

author = "Ming Li and Menglei Li and Fawei Zheng",

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AU - Li, Ming

AU - Li, Menglei

AU - Zheng, Fawei

PY - 2024/4/1

Y1 - 2024/4/1

N2 - In the present study, we proposed a new type of three-dimensional (3D) graphene structures, which are orthorhombic and become tetragonal for the higher symmetry cases, by using the crystal structure prediction method and classic molecular dynamics (MD) simulations. The elastic properties have been systematically investigated, which show that the elastic constants can be expressed as functions of the graphene wall length L, i.e. the hole size. Most of the elastic constants are composed of L−1 and L−2 terms, where L−1 term is the main part and the less important L−2 term comes from the joint areas between graphene walls. Our predicted orthorhombic 3D graphene structure and the scaling laws in the elastic properties provide theoretical references for future experimental studies on the superstructures of graphene.

AB - In the present study, we proposed a new type of three-dimensional (3D) graphene structures, which are orthorhombic and become tetragonal for the higher symmetry cases, by using the crystal structure prediction method and classic molecular dynamics (MD) simulations. The elastic properties have been systematically investigated, which show that the elastic constants can be expressed as functions of the graphene wall length L, i.e. the hole size. Most of the elastic constants are composed of L−1 and L−2 terms, where L−1 term is the main part and the less important L−2 term comes from the joint areas between graphene walls. Our predicted orthorhombic 3D graphene structure and the scaling laws in the elastic properties provide theoretical references for future experimental studies on the superstructures of graphene.

KW - Elastic constants

KW - Molecular dynamics simulations

KW - Orthorhombic graphene structures

KW - Scaling law

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JO - Physica B: Condensed Matter

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New three-dimensional orthorhombic graphene structures and their elastic properties

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