Structural characteristics of 3C–SiC thin films grown on Si-face and C-face 4H–SiC substrates by high temperature chemical vapor deposition

Authors

Zhe Chuan Feng, Kennesaw State University
Hao Hsiung Lin, National Taiwan University
Bin Xin, Institute of Flexible Electronics Technology of Tsing Hua University
Shi Jane Tsai, National Taiwan University
Vishal Saravade, Kennesaw State University
Jeffrey Yiin, Kennesaw State University
Benjamin Klein, Kennesaw State University
Ian T. Ferguson, Kennesaw State University

Department

Electrical and Computer Engineering

Document Type

Article

Publication Date

1-1-2023

Abstract

Hetero-epitaxy of 3C–SiC on Si-face and C-face 4H–SiC is experimentally investigated and corresponding growth model is identified. This study of polytypes of SiC will be useful for band-gap engineering, optical, electrical, and electronic applications of SiC. 3C–SiC was epitaxially deposited on 4H–SiC using a high temperature chemical vapor deposition. The primary factor affecting the epi-quality on Si-face SiC is double positioning boundary (DPB) defect. An adatom migration model elucidates the formation of the V-shaped DPB defect structures. On C-terminated 4H–SiC, super-V-shaped-structure (SVSS) defects and polycrystalline complexes in 3C–SiC are formed. These characteristics of 3C–SiC are measured and analyzed using transmission electron microscopy, X-ray diffraction, atomic force microscopy, and scanning electron microscopy techniques. A model considering adatoms' migration in step-flow direction and anti-step-flow direction explains the SVSS defects. Effects of both step-flow and anti-step-flow growth mode on the atom adsorption near the step edge are discussed.

Journal Title

Vacuum

Journal ISSN

0042207X

Volume

207

Digital Object Identifier (DOI)

10.1016/j.vacuum.2022.111643