Moir\'{e} Patterns: Fingerprints of Few-Layer Epitaxial Graphene Growth on 4H-SiC(000$\bar{1}$)

Few-layer epitaxial graphene (FLG) was grown by heating [000$\bar{1}$] silicon carbide to high temperatures (1350--1600$^{\circ}$C) in vacuum. A continuous graphene surface layer was formed at temperatures of 1475$^{\circ}$C and greater. X-ray photoelectron spectroscopy (XPS) and scanning tunneling microscopy (STM) were used to characterize the quality, thickness, and topography of the FLG. STM studies revealed a wide variety of different nanometer-scale features that include rough graphene, 1D superlattices, grain boundaries, and Moir\'{e} 2D superlattices. Detailed studies of the Moir\'{e} superlattices showed enhanced conductivity due to density of states effects. These Moir\'{e} superlattices also provided insights into the growth mechanisms of FLG on the carbon-face of SiC. \\[0pt] L. Biedermann \textit{et al.}, ``Insights into Few-Layer Epitaxial Graphene Growth on 4H-SiC(000$\bar{1}$) Substrates from STM Studies,'' \textbf{Phys. Rev. B} (submitted).