Exploring the different roles of graphene and its derivatives as nano-additives at amorphous carbon surface through reactive molecular dynamics approach

Authors
Li, XiaoweiZhang, DekunLee, Kwang-Ryeol
Issue Date
2021-07
Publisher
ELSEVIER
Citation
COMPUTATIONAL MATERIALS SCIENCE, v.195
Abstract
Graphene (G) and its derivatives exhibit great potential as oil-based additives to enhance the anti-friction capacity of amorphous carbon (a-C) interface for industrial applications. However, due to the structural diversity of G derivatives and the limitation of experimental characterization, the difference of intrinsic G and its derivatives in improving the lubricity and the underlying tribochemical information is still unclear, leading to a lack of fundamental understanding of the friction mechanism. Here, we address these issues through the atomic-scale simulation and demonstrate that compared to the intrinsic G, its derivatives can further reduce the friction resistance at a-C surface, especially the chair-type graphane with the reduction of friction coefficient by 86%. Most importantly, the fundamental friction mechanism caused by G derivatives mainly attributes to the Ginduced cross-linking and cold welding of mated a-C surfaces, although it is also affected by the passivation of the friction interface and the hydrodynamic lubrication of base oil. These outcomes can guide the R&D of advanced a-C/lubricant synergy systems for technical applications.
Keywords
ORGANIC FRICTION MODIFIERS; TRIBOLOGICAL PROPERTIES; OXIDE SHEETS; FILMS; MECHANISM; LUBRICATION; CORROSION; COATINGS; WEAR; DEPENDENCE; ORGANIC FRICTION MODIFIERS; TRIBOLOGICAL PROPERTIES; OXIDE SHEETS; FILMS; MECHANISM; LUBRICATION; CORROSION; COATINGS; WEAR; DEPENDENCE; Graphene derivative; Amorphous carbon; Lubricant additive; Reactive molecular dynamics; Friction mechanism
ISSN
0927-0256
URI
https://pubs.kist.re.kr/handle/201004/116826
DOI
10.1016/j.commatsci.2021.110499
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KIST Article > 2021
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