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UItra-low friction and edge-pinning effect in large-lattice-mismatch van der Waals heterostructures

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cris.customurl 14284
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cris.virtual.department Computational Material Design
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cris.virtual.departmentbrowse Computational Material Design
cris.virtual.departmentbrowse Computational Material Design
cris.virtual.departmentbrowse Computational Material Design
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dc.contributor.author Liao, Mengzhou
dc.contributor.author Nicolini, Paolo
dc.contributor.author Du, Luojun
dc.contributor.author Yuan, Jiahao
dc.contributor.author Wang, Shuopei
dc.contributor.author Yu, Hua
dc.contributor.author Tang, Jian
dc.contributor.author Cheng, Peng
dc.contributor.author Watanabe, Kenji
dc.contributor.author Taniguchi, Takashi
dc.contributor.author Gu, Lin
dc.contributor.author Claerbout, Victor E.P.
dc.contributor.author Silva, Andrea
dc.contributor.author Kramer, Denis
dc.contributor.author Polcar, Tomas
dc.contributor.author Yang, Rong
dc.contributor.author Shi, Dongxia
dc.contributor.author Zhang, Guangyu
dc.date.issued 2021-08-05
dc.description.abstract Two-dimensional heterostructures are excellent platforms to realize twist-angle-independent ultra-low friction due to their weak interlayer van der Waals interactions and natural lattice mismatch. However, for finite-size interfaces, the effect of domain edges on the friction process remains unclear. Here we report the superlubricity phenomenon and the edge-pinning effect at MoS2/graphite and MoS2/hexagonal boron nitride van der Waals heterostructure interfaces. We found that the friction coefficients of these heterostructures are below 10−6. Molecular dynamics simulations corroborate the experiments, which highlights the contribution of edges and interface steps to friction forces. Our experiments and simulations provide more information on the sliding mechanism of finite low-dimensional structures, which is vital to understand the friction process of laminar solid lubricants.
dc.description.version NA
dc.identifier.doi 10.1038/s41563-021-01058-4
dc.identifier.issn 1476-1122
dc.identifier.uri https://openhsu.ub.hsu-hh.de/handle/10.24405/14284
dc.language.iso en
dc.publisher Nature Publishing Group
dc.relation.journal Nature Materials
dc.relation.orgunit Computational Material Design
dc.rights.accessRights metadata only access
dc.title UItra-low friction and edge-pinning effect in large-lattice-mismatch van der Waals heterostructures
dc.type Research article
dcterms.bibliographicCitation.originalpublisherplace Basingstoke
dspace.entity.type Publication
hsu.peerReviewed
hsu.uniBibliography
oaire.citation.endPage 53
oaire.citation.issue 1
oaire.citation.startPage 47
oaire.citation.volume 21
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