Abstract
A new technique that reduces stacking fault (SF) density in 3C-SiC, termed switch-back
epitaxy (SBE), is demonstrated regarding its effects on morphological and electrical properties. SBE
is a homoepitaxial growth process on backside of 3C-SiC grown on undulant-Si. The key feature of
SBE, the surface polarity of residual SFs in 3C-SiC, which cannot be erased by heteroepitaxial growth
on undulant-Si, is converted from the Si-face to the C-face. The SF density on the surface of 3C-SiC
grown by SBE shows a remarkable decrease to one-seventh lower than that on undulant- Si. The
leakage current of pn-diode epitaxially fabricated on the 3C-SiC substrate grown by SBE decreases to
as low as one-thirtieth that on 3C-SiC substrate grown without SBE. These results suggest that SBE
eliminates the SFs on the surface of 3C-SiC and subsequently reduces the leakage current at
pn-junction thus fabricated.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
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5. 0. 1 0. 2 0. 3 10Leakage current density (A/cm2) Yield (%).
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