Interfacial adhesion properties of graphene sheet on nanoscale corrugated surface: a molecular dynamics simulation study
XQ Tang and K Zhang and XH Deng and P Zhang and Y Pei, MOLECULAR SIMULATION, 42, 405-412 (2016).
DOI: 10.1080/08927022.2015.1059430
Adhesive contacts between graphene sheet (GS) and corrugated substrates made of an ordered array of atomic pillars with variable geometries were investigated by molecular dynamics simulations. Depending on the height and interval distance of the pillars, GS can conformably coat the surface, partially adhere, or remain flat on top of the pillars. The relationship between the geometries of the pillar and the final adhesion configurations of GS was partially established. A critical adsorption energy was determined to achieve stable adsorption configuration of GS on corrugated substrates made of ordered pillar arrays. Besides the geometries of pillars, the effects of initial coating angle of GS were also considered as an important factor that affects the final adsorption configuration. We observed two interesting morphologies of GS, I shape' and L shape', which were determined by the initial coating angles.
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