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Low temperature transport properties of multigraphene structures on 6H-SiC obtained by thermal graphitization: evidences of a presence of nearly perfect graphene layer

Transport properties of multigraphene layers on 6H-SiC substrates fabricated by thermal graphitization of SiC were studied. The principal result is that these structures were shown to contain a nearly perfect graphene layer situated between the SiC substrate and multgraphene layer. It was found that the curves of magnetoresistance and Shubnikov- de Haas oscillations shown the features, typical for single-layered graphene. The low temperature resistance demonstrated an increase with temperature increase, which also corresponds to a behavior typical for single-layered graphene (antilocalization). However at higher temperatures the resistance decreased with an increase of temperature, which corresponds to a weak localization. We believe that the observed behavior can be explained by a parallel combination of contributions to the conductivity of single-layered graphene and of multigraphene, the latter allowing to escape damages of the graphene by atmosphere effect.

preprint2012arXivOpen access
A. A. LebedevN. V. AgrinskayaV. A. BeresovetsV. I. KozubS. P. LebedevA. A. Sitnikova
cond-mat.mtrl-sci
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Open access6 authors1 topic
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A. A. LebedevN. V. AgrinskayaV. A. BeresovetsV. I. KozubS. P. LebedevA. A. Sitnikova

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