Epitaxy of silicon carbide on silicon: micromorphological analysis of growth surface evolution

journal article in Web of Science

English

The main purpose of our research was the study of evolution of silicon carbide films on silicon by micromorphological analysis. Surface micromorphologies of Silicon Carbide epilayers with two different thicknesses were compared by means of fractal geometry. Silicon Carbide films were prepared on Si substrates by magnetron sputtering of polycrystalline target SiC in Ar atmosphere (99.999% purity). Synthesis of qualitative SiC/Si templates solves the questions of large diameter SiC single-crystal wafers formation. This technology decreases financial expenditure and provides integration of SiC into silicon technology. These hybrid substrates with buffer layer of high oriented SiC are useful for growth of both wide band gap materials (SiC, AlN, GaN) and graphene. The main problem of SiC heteroepitaxy on Si (111) is the large difference (~ 20%) of the lattice parameters. Fractal analysis of surface morphology of heteroepitaxial films could help to understand the films growth mechanisms. The 3D (three-dimensional) surfaces revealed a fractal structure at the nanometer scale. The fractal dimension (D) provided global quantitative values that characterize the scale properties of surface geometry.

epitaxy, silicon carbide epilayer, atomic force microscopy, magnetron sputtering, substrate, surface roughness, fractal analysis

RAMAZANOV, S.; TALU, S.; DALLAEVA, D.; STACH, S.; RAMAZANOV, G.

2015

10. 8. 2015

Elsevier

0749-6036

SUPERLATTICES AND MICROSTRUCTURES

2015

85

United Kingdom of Great Britain and Northern Ireland

395

402

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