Superlubricity of a graphene/MoS2 heterostructure: A combined experimental and DFT study

Linfeng Wang; Xiang Zhou; Tianbao Ma; Dameng Liu; Lei Gao; Xin Li; Jun Zhang; Yuanzhong Hu; Hui Wang; Yadong Dai; Jianbin Luo

doi:10.1039/c7nr01451a

Superlubricity of a graphene/MoS₂ heterostructure: A combined experimental and DFT study

Linfeng Wang, Xiang Zhou, Tianbao Ma^*, Dameng Liu, Lei Gao, Xin Li, Jun Zhang, Yuanzhong Hu, Hui Wang, Yadong Dai, Jianbin Luo

^*此作品的通讯作者

机械与车辆学院

科研成果: 期刊稿件 › 文章 › 同行评审

148 引用（Scopus）

摘要

Graphene and other two-dimensional materials have been proved to be able to offer low friction. Here we assembled van der Waals heterostructures with graphene and molybdenum disulphide monolayers. The Raman spectrum together with a modified linear chain model indicate a two-orders-of-magnitude decrease in the interlayer lateral force constant, as compared with their homogeneous bilayers, indicating a possible routine to achieve superlubricity. The decrease in the interlayer lateral force constant is consistent with the ultrasmall potential energy corrugation during sliding, which is derived from density functional theory calculations. The potential energy corrugation is found to be determined by the sliding-induced interfacial charge density fluctuation, suggesting a new perspective to understand the physical origin of the atomic scale friction of two-dimensional materials.

源语言	英语
页（从-至）	10846-10853
页数	8
期刊	Nanoscale
卷	9
期	30
DOI	https://doi.org/10.1039/c7nr01451a
出版状态	已出版 - 14 8月 2017

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title = "Superlubricity of a graphene/MoS2 heterostructure: A combined experimental and DFT study",

abstract = "Graphene and other two-dimensional materials have been proved to be able to offer low friction. Here we assembled van der Waals heterostructures with graphene and molybdenum disulphide monolayers. The Raman spectrum together with a modified linear chain model indicate a two-orders-of-magnitude decrease in the interlayer lateral force constant, as compared with their homogeneous bilayers, indicating a possible routine to achieve superlubricity. The decrease in the interlayer lateral force constant is consistent with the ultrasmall potential energy corrugation during sliding, which is derived from density functional theory calculations. The potential energy corrugation is found to be determined by the sliding-induced interfacial charge density fluctuation, suggesting a new perspective to understand the physical origin of the atomic scale friction of two-dimensional materials.",

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T2 - A combined experimental and DFT study

AU - Wang, Linfeng

AU - Zhou, Xiang

AU - Ma, Tianbao

AU - Liu, Dameng

AU - Gao, Lei

AU - Li, Xin

AU - Zhang, Jun

AU - Hu, Yuanzhong

AU - Wang, Hui

AU - Dai, Yadong

AU - Luo, Jianbin

PY - 2017/8/14

Y1 - 2017/8/14

N2 - Graphene and other two-dimensional materials have been proved to be able to offer low friction. Here we assembled van der Waals heterostructures with graphene and molybdenum disulphide monolayers. The Raman spectrum together with a modified linear chain model indicate a two-orders-of-magnitude decrease in the interlayer lateral force constant, as compared with their homogeneous bilayers, indicating a possible routine to achieve superlubricity. The decrease in the interlayer lateral force constant is consistent with the ultrasmall potential energy corrugation during sliding, which is derived from density functional theory calculations. The potential energy corrugation is found to be determined by the sliding-induced interfacial charge density fluctuation, suggesting a new perspective to understand the physical origin of the atomic scale friction of two-dimensional materials.

AB - Graphene and other two-dimensional materials have been proved to be able to offer low friction. Here we assembled van der Waals heterostructures with graphene and molybdenum disulphide monolayers. The Raman spectrum together with a modified linear chain model indicate a two-orders-of-magnitude decrease in the interlayer lateral force constant, as compared with their homogeneous bilayers, indicating a possible routine to achieve superlubricity. The decrease in the interlayer lateral force constant is consistent with the ultrasmall potential energy corrugation during sliding, which is derived from density functional theory calculations. The potential energy corrugation is found to be determined by the sliding-induced interfacial charge density fluctuation, suggesting a new perspective to understand the physical origin of the atomic scale friction of two-dimensional materials.

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Superlubricity of a graphene/MoS2 heterostructure: A combined experimental and DFT study

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Superlubricity of a graphene/MoS₂ heterostructure: A combined experimental and DFT study