J.‐M. Themlin scite author profile

Using grazing-incidence x-ray diffraction and scanning tunneling microscopy (STM), we show that the thermal decomposition of an electronic-grade wafer of 6H-SiC after annealing at increasing temperatures TA between 1080 and 1320 °C leads to the layer-by-layer growth of unconstrained, heteroepitaxial single-crystalline graphite. The limited width of the in-plane diffraction rod profiles of graphite reveals large terraces, with an average size larger than 200 Å and a very small azimuthal disorientation. The overlayer is unstrained and adopts the crystalline parameter of bulk graphite even at the smallest coverage studied, which corresponds to a single graphene plane, as inferred from the flat out-of-plane diffraction profile. By increasing TA, additional graphene planes can be grown below this graphite layer from the solid-state decomposition of SiC, forming the AB stacking of Bernal graphite. A C-rich precursor is evidenced in STM by an intrinsic (6×6) reconstruction made of ordered ring or starlike structures. The resulting epitaxial film is indistinguishable from a bulk graphite single crystal.

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Solid-state graphitization mechanisms of silicon carbide 6H–SiC polar faces

Forbeaux

Themlin

Charrier

et al. 2000

Applied Surface Science

125

127

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J.‐M. Themlin

Heteroepitaxial graphite on6H−SiC(0001): Interface formation through conduction-band electronic structure

Characterization of tin oxides by x-ray-photoemission spectroscopy

Solid-state decomposition of silicon carbide for growing ultra-thin heteroepitaxial graphite films

Solid-state graphitization mechanisms of silicon carbide 6H–SiC polar faces

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