Abstract
A systematic structural study of epitaxial graphene samples on the SiC (0001) surface has been performed by the surface x-ray diffraction method, which is a non-contact technique. For samples with only a buffer layer, one layer graphene, and multilayer graphene, the distances between the buffer layer and the surface Si atoms were found to be 2.3 Å. This value is the same as reported values. For quasi-free-standing graphene samples prepared by the rapid cooling method [Bao et al., Phys. Rev. Lett. 117, 205501 (2016)], there was no buffer layer and the distance between the quasi-free-standing graphene and the surface Si atoms was 3.5 Å, which is significantly shorter than the value in hydrogen-intercalated graphene and slightly longer than the interplane distance in graphite. The Si occupancy deviated from unity within 1 nm of the SiC surface. The depth profile of the Si occupancy showed little sample dependence, and it was reproduced by a simple atomistic model based on random hopping of Si atoms.
Highlights
The buffer layer scatters carriers in the graphene layers, resulting in decreased carrier mobility.10–12 Several ways to remove the buffer layer have been reported
A systematic structural study of epitaxial graphene samples on the SiC (0001) surface has been performed by the surface x-ray diffraction method, which is a non-contact technique
The separation of the buffer layer from the SiC substrate has been investigated by Raman scattering,19,20 cross-sectional transmission electron microscopy (TEM),21,22 and surface x-ray diffraction
Summary
The buffer layer scatters carriers in the graphene layers, resulting in decreased carrier mobility.10–12 Several ways to remove the buffer layer have been reported. A systematic structural study of epitaxial graphene samples on the SiC (0001) surface has been performed by the surface x-ray diffraction method, which is a non-contact technique. The separation of the buffer layer from the SiC substrate has been investigated by Raman scattering,19,20 cross-sectional transmission electron microscopy (TEM),21,22 and surface x-ray diffraction.23,24
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