Switchable friction enabled by nanoscale self-assembly on graphene

Patrick Gallagher; Menyoung Lee; Francois Amet; Petro Maksymovych; Jun Wang; Shuopei Wang; Xiaobo Lu; Guangyu Zhang; Kenji Watanabe; Takashi Taniguchi; David Goldhaber-Gordon

doi:10.1038/ncomms10745

論文 Switchable friction enabled by nanoscale self-assembly on graphene

Patrick Gallagher ; Menyoung Lee ; Francois Amet ; Petro Maksymovych ; Jun Wang ; Shuopei Wang ; Xiaobo Lu ; Guangyu Zhang ; Kenji Watanabe (National Institute for Materials Science) ; Takashi Taniguchi (National Institute for Materials Science) ; David Goldhaber-Gordon

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Patrick Gallagher, Menyoung Lee, Francois Amet, Petro Maksymovych, Jun Wang, Shuopei Wang, Xiaobo Lu, Guangyu Zhang, Kenji Watanabe, Takashi Taniguchi, David Goldhaber-Gordon. Switchable friction enabled by nanoscale self-assembly on graphene. Nature Communications. 2016, 7 (), 10745. https://doi.org/10.1038/ncomms10745

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(abstract)

We demonstrate that frictional domains derive not from structural features in the graphene, but from self-assembly of atmospheric adsorbates into a highly regular superlattice of stripes with period 4 to 6 nm. The stripes and resulting frictional domains appear on monolayer and multilayer graphene on a variety of substrates, as well as on exfoliated flakes of hexagonal boron nitride. We show that the stripe-superlattices can be reproducibly and reversibly manipulated with submicron precision using a scanning probe microscope, allowing us to create arbitrary arrangements of frictional domains within a single flake.

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