Why Multilayer Graphene on  4  H  −  SiC  (  000   1  ¯   )  Behaves Like a Single Sheet of Graphene

Hass, Joanna; Varchon, F.; Millán-Otoya, J. E.; Sprinkle, M.; Sharma, Nidhi; Heer, Walt A. de; Berger, Claire; First, Phillip N.; Magaud, L.; Conrad, E. H.

doi:10.1103/physrevlett.100.125504

articlePhysical Review LettersMar 28, 2008LVClosed access

Why Multilayer Graphene on 4 H − SiC ( 000 1 ¯ ) Behaves Like a Single Sheet of Graphene

JHJoanna Hass FVF. Varchon JEJ. E. Millán-Otoya MSM. Sprinkle NSNidhi Sharma

Georgia Institute of Technology · Université Joseph Fourier · +3 more institutions

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Abstract

We show experimentally that multilayer graphene grown on the carbon terminated SiC(0001[over ]) surface contains rotational stacking faults related to the epitaxial condition at the graphene-SiC interface. Via first-principles calculation, we demonstrate that such faults produce an electronic structure indistinguishable from an isolated single graphene sheet in the vicinity of the Dirac point. This explains prior experimental results that showed single-layer electronic properties, even for epitaxial graphene films tens of layers thick.

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Topics & keywords

Topics

Keywords

Graphene
Materials science
Stacking
Epitaxy
Carbon fibers
Dirac (video compression format)
Condensed matter physics
Crystallography

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