Local Anodic Oxidation of Graphene Layers on SiC

P. A. Alekseev; B. R. Borodin; M. S. Dunaevskii; A. N. Smirnov; V. Yu. Davydov; S. P. Lebedev; A. A. Lebedev

doi:10.1134/S1063785018050024

Local Anodic Oxidation of Graphene Layers on SiC

Authors: Alekseev P.A.¹, Borodin B.R.¹, Dunaevskii M.S.¹, Smirnov A.N.², Davydov V.Y.¹, Lebedev S.P.¹, Lebedev A.A.¹
Affiliations:
1. Ioffe Physical Technical Institute
2. St. Petersburg National Research University of Information Technologies
Issue: Vol 44, No 5 (2018)
Pages: 381-383
Section: Article
URL: https://journals.rcsi.science/1063-7850/article/view/207634
DOI: https://doi.org/10.1134/S1063785018050024
ID: 207634

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Abstract

A method of local anodic oxidation has been used to obtain graphene-oxide regions on SiC. The change of the surface properties was confirmed by atomic-force microscopy and Raman spectroscopy. Experimental data were obtained on the conductivity, potential, and topography of the oxidized regions. It was shown that the oxidation leads to a rise in the surface potential. A relationship was found between oxidation parameters, such as the scanning velocity and the probe voltage. The method of local anodic oxidation was used to obtain by lithography an ~20-nm-wide nanoribbon and an ~10-nm-wide nanoconstriction.

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Local Anodic Oxidation of Graphene Layers on SiC

Full Text

Abstract

About the authors

P. A. Alekseev

B. R. Borodin

M. S. Dunaevskii

A. N. Smirnov

V. Yu. Davydov

S. P. Lebedev

A. A. Lebedev

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