Growth and Superiority of Epitaxial Graphene on SiC
Abstract: Graphene is an ideal two dimensional atomic layer, and has been  energetically investigated due to its superior electronic properties for high-speed electronic device applications. In this report, focusing on the SiC surface thermal decomposition method, one of the synthetic methods, the growth mechanism, interface structures between graphene and substrate, and the stacking sequence of epitaxial graphene obtained by observation mainly with transmission electron microscopy were interpreted. In particular, the variety and advantages of influence of polarity or surface step-terrace structure of SiC were introduced, and the topics about peculiar electronic properties, crystallographic anisotropy, nano-ribboned structure, and twisted-stacked structure were reviewed, and then its possibility was discussed.
Key words: SiC surface thermal decomposition, epitaxial growth, high carrier mobility, carbide, buffer layer