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Geometrical characteristics and surface polarity of inclined crystallographic planes of the wurtzite and zincblende structures

Journal of Electronic Materials (2009) 38(6) 756-760
DOI: 10.1007/s11664-009-0777-4
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Abstract

Inclined crystallographic planes of the wurtzite structure were investigated in comparison with the zincblende structure in terms of surface geometry characteristics. The ball-stick model indicates that the semipolar ( 11̄ 01) surface possesses a surface polarity resembling the anion polarity, which agrees with the common experimental observations of epitaxial growth preference for the cation-polarity (11̄0̄1) surface over the (11̄0̄1) surface. The wurtzite {112̄2} surface was found to share geometrical similarities with the zincblende {100} surface uniquely among the possible semipolar planes. This finding encourages epitaxial growth on the {112̄2} plane of wurtzite semiconductors, e.g., GaN, with the potential of avoiding atomic step formations typically associated with off-axis crystallographic planes. © 2009 The Author(s).

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APA

Masui, H., Cruz, S. C., Nakamura, S., & Denbaars, S. P. (2009). Geometrical characteristics and surface polarity of inclined crystallographic planes of the wurtzite and zincblende structures. In Journal of Electronic Materials (Vol. 38, pp. 756–760). https://doi.org/10.1007/s11664-009-0777-4

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