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Structural variants in attempted hetero-epitaxial growth of B12As2 on 6H-SiC (0001).

Journal Article · · Proposed for publication in the Journal of Materials Research.
OSTI ID:949858
; ;  [1];
  1. University of New Mexico, Albuquerque, NM
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Boron sub-arsenide, B{sub 12}As{sub 2}, is based on twelve-atom clusters of boron atoms and two-atom As-As chains. By contrast, SiC is a tetrahedrally bonded covalent semiconductor. Despite these fundamental differences, the basal plane hexagonal lattice constant of boron sub-arsenide is twice that of SiC. This coincidence suggests the possibility of heteroepitaxial growth of boron sub-arsenide films on properly aligned SiC. However, there are a variety of incommensurate alignments by which heteroepitaxial growth of B{sub 12}As{sub 2} on (0001) 6H-SiC can occur. In this study, we first used geometrical crystallographic considerations to describe the possible arrangements of B{sub 12}As{sub 2} on (0001) 6H-SiC. We identified four translational and two rotational variants. We then analyzed electron backscattered diffraction and transmission electron microscopy images for evidence of distinct domains of such structural variants. Micron-scale regions with each of the two possible rotational alignments of B{sub 12}As{sub 2} icosahedra with the SiC surface were seen. On a finer length scale (100-300 nm) within these regions, boron-rich boundaries were found, consistent with those between pairs of the four equivalent translational variants associated with a two-to-one lattice match. Boron-carbide reaction layers were also observed at interfaces between SiC and B{sub 12}As{sub 2}.

Research Organization:
Sandia National Laboratories
Sponsoring Organization:
USDOE
DOE Contract Number:
AC04-94AL85000
OSTI ID:
949858
Report Number(s):
SAND2005-1878J
Journal Information:
Proposed for publication in the Journal of Materials Research., Journal Name: Proposed for publication in the Journal of Materials Research.
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
77 NANOSCIENCE AND NANOTECHNOLOGY
BORON ARSENIDES
EPITAXY
HEXAGONAL LATTICES
HYDRATES
NANOSTRUCTURES
SILICON CARBIDES
SUBSTRATES