A molecular dynamics study of the mechanical properties of twisted bilayer graphene

Aaron Liu; Qing Peng

doi:10.3390/mi9090440

A molecular dynamics study of the mechanical properties of twisted bilayer graphene

Aaron Liu
, Qing Peng^*

^*Corresponding author for this work

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

27 Scopus citations

Abstract

Graphene is one of the most important nanomaterials. The twisted bilayer graphene shows superior electronic properties compared to graphene. Here, we demonstrate via molecular dynamics simulations that twisted bilayer graphene possesses outstanding mechanical properties. We find that the mechanical strain rate and the presence of cracks have negligible effects on the linear elastic properties, but not the nonlinear mechanical properties, including fracture toughness. The "two-peak" pattern in the stress-strain curves of the bilayer composites of defective and pristine graphene indicates a sequential failure of the two layers. Our study provides a safe-guide for the design and applications of multilayer grapheme-based nanoelectronic devices.

Original language	English
Article number	440
Journal	Micromachines
Volume	9
Issue number	9
DOIs	https://doi.org/10.3390/mi9090440
State	Published - 2018
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2018 by the authors.

Keywords

Bilayer graphene
Fracture toughness
Mechanical properties
Strain rate
Stress-strain

ASJC Scopus subject areas

Control and Systems Engineering
Mechanical Engineering
Electrical and Electronic Engineering

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10.3390/mi9090440

Cite this

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title = "A molecular dynamics study of the mechanical properties of twisted bilayer graphene",

abstract = "Graphene is one of the most important nanomaterials. The twisted bilayer graphene shows superior electronic properties compared to graphene. Here, we demonstrate via molecular dynamics simulations that twisted bilayer graphene possesses outstanding mechanical properties. We find that the mechanical strain rate and the presence of cracks have negligible effects on the linear elastic properties, but not the nonlinear mechanical properties, including fracture toughness. The {"}two-peak{"} pattern in the stress-strain curves of the bilayer composites of defective and pristine graphene indicates a sequential failure of the two layers. Our study provides a safe-guide for the design and applications of multilayer grapheme-based nanoelectronic devices.",

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doi = "10.3390/mi9090440",

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T1 - A molecular dynamics study of the mechanical properties of twisted bilayer graphene

AU - Liu, Aaron

AU - Peng, Qing

PY - 2018

Y1 - 2018

N2 - Graphene is one of the most important nanomaterials. The twisted bilayer graphene shows superior electronic properties compared to graphene. Here, we demonstrate via molecular dynamics simulations that twisted bilayer graphene possesses outstanding mechanical properties. We find that the mechanical strain rate and the presence of cracks have negligible effects on the linear elastic properties, but not the nonlinear mechanical properties, including fracture toughness. The "two-peak" pattern in the stress-strain curves of the bilayer composites of defective and pristine graphene indicates a sequential failure of the two layers. Our study provides a safe-guide for the design and applications of multilayer grapheme-based nanoelectronic devices.

AB - Graphene is one of the most important nanomaterials. The twisted bilayer graphene shows superior electronic properties compared to graphene. Here, we demonstrate via molecular dynamics simulations that twisted bilayer graphene possesses outstanding mechanical properties. We find that the mechanical strain rate and the presence of cracks have negligible effects on the linear elastic properties, but not the nonlinear mechanical properties, including fracture toughness. The "two-peak" pattern in the stress-strain curves of the bilayer composites of defective and pristine graphene indicates a sequential failure of the two layers. Our study provides a safe-guide for the design and applications of multilayer grapheme-based nanoelectronic devices.

KW - Bilayer graphene

KW - Fracture toughness

KW - Mechanical properties

KW - Strain rate

KW - Stress-strain

UR - https://www.scopus.com/pages/publications/85066850014

U2 - 10.3390/mi9090440

DO - 10.3390/mi9090440

M3 - Article

AN - SCOPUS:85066850014

SN - 2072-666X

VL - 9

JO - Micromachines

JF - Micromachines

IS - 9

M1 - 440

ER -

A molecular dynamics study of the mechanical properties of twisted bilayer graphene

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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Cite this