Atomic-Scale Sliding Friction on Graphene in Water | Zendy

J. G. Vilhena | Zendy; Carlos Pimentel | Zendy; Patricia Pedraz | Zendy; Feng Luo | Zendy; P. A. Serena | Zendy; Carlos M. Pina | Zendy; Enrico Gnecco | Zendy; Rúben Pérez | Zendy

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Atomic-Scale Sliding Friction on Graphene in Water

Author(s) -

J. G. Vilhena,

Carlos Pimentel,

Patricia Pedraz,

Feng Luo,

P. A. Serena,

Carlos M. Pina,

Enrico Gnecco,

Rúben Pérez

Publication year - 2016

Publication title -

acs nano

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 5.554

H-Index - 382

eISSN - 1936-086X

pISSN - 1936-0851

DOI - 10.1021/acsnano.5b07825

Subject(s) - graphene , materials science , atomic units , scale (ratio) , nanotechnology , atomic force microscopy , chemical physics , composite material , physics , quantum mechanics

The sliding of a sharp nanotip on graphene completely immersed in water is investigated by molecular dynamics (MD) and atomic force microscopy. MD simulations predict that the atomic-scale stick-slip is almost identical to that found in ultrahigh vacuum. Furthermore, they show that water plays a purely stochastic role in sliding (solid-to-solid) friction. These observations are substantiated by friction measurements on graphene grown on Cu and Ni, where, oppositely of the operation in air, lattice resolution is readily achieved. Our results promote friction force microscopy in water as a robust alternative to ultra-high-vacuum measurements.

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