Nanoscale friction on MoS2/graphene heterostructures

Zhao Liu; Bartosz Szczefanowicz; J. Marcelo J. Lopes; Ziyang Gan; Antony George; Andrey Turchanin; Roland Bennewitz

doi:10.1039/D3NR00138E

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Nanoscale friction on MoS₂/graphene heterostructures†

Zhao Liu,

‡^a Bartosz Szczefanowicz,

^a J. Marcelo J. Lopes,^b Ziyang Gan,^c Antony George,^c Andrey Turchanin

^c and Roland Bennewitz

*^a

Author affiliations

* Corresponding authors

^a INM – Leibniz Institute for New Materials, Campus D22, 66123 Saarbrücken, Germany
E-mail: roland.bennewitz@leibniz-inm.de

^b Paul-Drude-Institute für Festkörperelektronik, Leibniz-Institut im Forschungsverbund Berlin e.V., Hausvogteiplaz 5-7, 10117 Berlin, Germany

^c Friedrich Schiller University Jena, Institute of Physical Chemistry, Lessingstr. 10, Germany

Abstract

Stacked hetero-structures of two-dimensional materials allow for a design of interactions with corresponding electronic and mechanical properties. We report structure, work function, and frictional properties of 1 to 4 layers of MoS₂ grown by chemical vapor deposition on epitaxial graphene on SiC(0001). Experiments were performed by atomic force microscopy in ultra-high vacuum. Friction is dominated by adhesion which is mediated by a deformation of the layers to adapt the shape of the tip apex. Friction decreases with increasing number of MoS₂ layers as the bending rigidity leads to less deformation. The dependence of friction on applied load and bias voltage can be attributed to variations in the atomic potential corrugation of the interface, which is enhanced by both load and applied bias. Minimal friction is obtained when work function differences are compensated.

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Article information

DOI: https://doi.org/10.1039/D3NR00138E
Article type: Paper
Submitted: 09 Jan 2023
Accepted: 25 Feb 2023
First published: 27 Feb 2023
This article is Open Access

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Nanoscale, 2023,15, 5809-5815

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Nanoscale friction on MoS₂/graphene heterostructures

Z. Liu, B. Szczefanowicz, J. M. J. Lopes, Z. Gan, A. George, A. Turchanin and R. Bennewitz, Nanoscale, 2023, 15, 5809 DOI: 10.1039/D3NR00138E

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