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Title Molecular dynamics of cleavage and flake formation during the interaction of a graphite surface with a rigid nanoasperity
Authors Khomenko, Oleksii Vitaliiovych  
Prodanov, N.V.
ORCID http://orcid.org/0000-0001-8755-9592
Keywords graphite surface
graphene layers
Lennard-Jones potential
Type Article
Date of Issue 2010
URI http://essuir.sumdu.edu.ua/handle/123456789/18081
Publisher Carbon
License
Citation A.V. Khomenko, N.V. Prodanov, Molecular dynamics of cleavage and flake formation during the interaction of a graphite surface with a rigid nanoasperity // Carbon. - 2010. - V.48. - P.1234-1243; http: // doi:10.1016/ j.carbon.2009.11.046.
Abstract Computer experiments concerning interactions between a graphite surface and the rigid pyramidal nanoasperity of a friction force microscope tip when it is brought close to and retracted from the graphitic sample are presented. Covalent atomic bonds in graphene layers are described using a Brenner potential and tip-carbon forces are derived from the Lennard-Jones potential. For interlayer interactions a registry-dependent potential with local normals is used. The behavior of the system is investigated under conditions of different magnitudes of tip-sample interaction and indentation rates. Strong forces between the nanoasperity and carbon atoms facilitate the cleavage of the graphite surface. Exfoliation, i. e. total removal of the upper graphitic layer, is observed when a highly adhesive tip is moved relative to the surface at low rates, while high rates cause the formation of a small flake attached to the tip. The results obtained may be valuable for enhancing our understanding of the superlubricity of graphite. When you are citing the document, use the following link http://essuir.sumdu.edu.ua/handle/123456789/18081
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