Molecular dynamics study on welding a defected graphene by a moving fullerene

Kun Cai; Jing Wan; Jingzhou Yu; Haifang Cai; Qinghua Qin

doi:10.1016/j.apsusc.2016.03.163

Molecular dynamics study on welding a defected graphene by a moving fullerene

Kun Cai^*, Jing Wan, Jingzhou Yu, Haifang Cai, Qinghua Qin

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

When a composite nanostructure is fabricated through van der Waals interaction only, the interaction among components may be sensitive to environmental conditions. To endow such a structure with relative stability, new covalent bonds should be applied. In this paper, a welding method for welding a circular graphene with a defect gap through a moving fullerene (C240 or C540 buckyball) is presented. When the buckyball moves above the gap, the two faces of the gap are attracted to each other and the distance between the two faces is shortened. When the dangling carbon atoms on both faces of the gap are excited to form new normal sp ² -sp ² carbon bonds, the gap can be sewn up quickly. Molecular dynamics simulations are presented to demonstrate the welding process. When the gap is a sector, an ideal cone can be fabricated using the present method.

Original language	English
Pages (from-to)	213-220
Number of pages	8
Journal	Applied Surface Science
Volume	377
DOIs	https://doi.org/10.1016/j.apsusc.2016.03.163
Publication status	Published - 30 Jul 2016

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title = "Molecular dynamics study on welding a defected graphene by a moving fullerene",

abstract = " When a composite nanostructure is fabricated through van der Waals interaction only, the interaction among components may be sensitive to environmental conditions. To endow such a structure with relative stability, new covalent bonds should be applied. In this paper, a welding method for welding a circular graphene with a defect gap through a moving fullerene (C240 or C540 buckyball) is presented. When the buckyball moves above the gap, the two faces of the gap are attracted to each other and the distance between the two faces is shortened. When the dangling carbon atoms on both faces of the gap are excited to form new normal sp 2 -sp 2 carbon bonds, the gap can be sewn up quickly. Molecular dynamics simulations are presented to demonstrate the welding process. When the gap is a sector, an ideal cone can be fabricated using the present method.",

keywords = "Carbon nanostructure, Fullerene, Graphene, Molecular dynamics, Nanowelding",

author = "Kun Cai and Jing Wan and Jingzhou Yu and Haifang Cai and Qinghua Qin",

year = "2016",

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language = "English",

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journal = "Applied Surface Science",

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TY - JOUR

T1 - Molecular dynamics study on welding a defected graphene by a moving fullerene

AU - Cai, Kun

AU - Wan, Jing

AU - Yu, Jingzhou

AU - Cai, Haifang

AU - Qin, Qinghua

PY - 2016/7/30

Y1 - 2016/7/30

N2 - When a composite nanostructure is fabricated through van der Waals interaction only, the interaction among components may be sensitive to environmental conditions. To endow such a structure with relative stability, new covalent bonds should be applied. In this paper, a welding method for welding a circular graphene with a defect gap through a moving fullerene (C240 or C540 buckyball) is presented. When the buckyball moves above the gap, the two faces of the gap are attracted to each other and the distance between the two faces is shortened. When the dangling carbon atoms on both faces of the gap are excited to form new normal sp 2 -sp 2 carbon bonds, the gap can be sewn up quickly. Molecular dynamics simulations are presented to demonstrate the welding process. When the gap is a sector, an ideal cone can be fabricated using the present method.

AB - When a composite nanostructure is fabricated through van der Waals interaction only, the interaction among components may be sensitive to environmental conditions. To endow such a structure with relative stability, new covalent bonds should be applied. In this paper, a welding method for welding a circular graphene with a defect gap through a moving fullerene (C240 or C540 buckyball) is presented. When the buckyball moves above the gap, the two faces of the gap are attracted to each other and the distance between the two faces is shortened. When the dangling carbon atoms on both faces of the gap are excited to form new normal sp 2 -sp 2 carbon bonds, the gap can be sewn up quickly. Molecular dynamics simulations are presented to demonstrate the welding process. When the gap is a sector, an ideal cone can be fabricated using the present method.

KW - Carbon nanostructure

KW - Fullerene

KW - Graphene

KW - Molecular dynamics

KW - Nanowelding

UR - http://www.scopus.com/inward/record.url?scp=84962382617&partnerID=8YFLogxK

U2 - 10.1016/j.apsusc.2016.03.163

DO - 10.1016/j.apsusc.2016.03.163

M3 - Article

SN - 0169-4332

VL - 377

SP - 213

EP - 220

JO - Applied Surface Science

JF - Applied Surface Science

ER -

Molecular dynamics study on welding a defected graphene by a moving fullerene

Abstract

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