Issue 37, 2019

Modeling nanoribbon peeling

Abstract

The lifting, peeling and exfoliation of physisorbed ribbons (or flakes) of 2D material such as graphene off a solid surface are common and important manoeuvres in nanoscience. The feature that makes this case peculiar is the structural lubricity generally realized by stiff 2D material contacts. We model theoretically the mechanical peeling of a nanoribbon of graphene as realized by the tip-forced lifting of one of its extremes off a flat crystal surface. The evolution of shape, energy, local curvature and body advancement are ideally expected to follow a succession of regimes: (A) initial prying, (B) peeling with stretching but without sliding (stripping), (C) peeling with sliding, (D) liftoff. In the case where in addition the substrate surface corrugation is small or negligible, then (B) disappears, and we find that the (A)–(C) transition becomes universal, analytical and sharp, determined by the interplay between bending rigidity and adsorption energy. This general two-stage peeling transition is identified as a sharp crossover in published data of graphene nanoribbons pulled off an atomic-scale Au(111) substrate.

Graphical abstract: Modeling nanoribbon peeling

Article information

Article type
Paper
Submitted
06 Jun 2019
Accepted
09 Sep 2019
First published
10 Sep 2019

Nanoscale, 2019,11, 17396-17400

Modeling nanoribbon peeling

L. Gigli, A. Vanossi and E. Tosatti, Nanoscale, 2019, 11, 17396 DOI: 10.1039/C9NR04821A

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