2021
DOI: 10.1021/acs.nanolett.1c03073
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Current-Induced One-Dimensional Diffusion of Co Adatoms on Graphene Nanoribbons

Abstract: One-dimensional diffusion of Co adatoms on graphene nanoribbons has been induced and investigated by means of scanning tunnelling microscopy (STM). To this end, the nanoribbons and the Co adatoms have been imaged before and after injecting current pulses into the nanoribbons, with the STM tip in direct contact with the ribbon. We observe current-induced motion of the Co atoms along the nanoribbons, which is approximately described by a distribution expected for a thermally activated one-dimensional random walk… Show more

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Cited by 9 publications
(13 citation statements)
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“…Our calculations are relevant in the low current regime and illustrate how the electronic redistribution in the bonds -rather than the direct interaction with the adsorbate charge -is important. In the experiments by Preis et al [6] the heating due to the current passing through the Co-nanoribbon system into the Au(111) substrate is responsibe for the non-directive Co motion. On the other hand, for strong currents, for small gap GNR or graphene, the electronic resonance structure of the adsorbate can dominate the picture as shown in a recent study by Choi and Cohen [14].…”
Section: Discussionmentioning
confidence: 99%
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“…Our calculations are relevant in the low current regime and illustrate how the electronic redistribution in the bonds -rather than the direct interaction with the adsorbate charge -is important. In the experiments by Preis et al [6] the heating due to the current passing through the Co-nanoribbon system into the Au(111) substrate is responsibe for the non-directive Co motion. On the other hand, for strong currents, for small gap GNR or graphene, the electronic resonance structure of the adsorbate can dominate the picture as shown in a recent study by Choi and Cohen [14].…”
Section: Discussionmentioning
confidence: 99%
“…In recent experiments, it has become feasible to place nanoparticles and even single atoms on surfaces, and study their diffusion using atomic resolution scanning methods like scanning electron microscopy (SEM) [5], scanning tunneling microscopy (STM) and atomic force microscopy (AFM) [6]. Besides mechanical manipulation by atomically sharp microscope tips, adsorbed particles can be moved by applying electrical fields, or, on conducting surfaces, by sending electrical currents through the structures, both causing electromigraton forces on the adsorbates [7].…”
Section: Introductionmentioning
confidence: 99%
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