Stability and electronic structure of the low-Σ grain boundaries in CdTe: A density functional study

Ji Sang Park, Joongoo Kang, Ji Hui Yang, Wyatt Metzger, Su Huai Wei

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33 Scopus citations

Abstract

Using first-principles density functional calculations, we investigate the relative stability and electronic structure of the grain boundaries (GBs) in zinc-blende CdTe. Among the low-Σ-value symmetric tilt Σ3 (111), Σ3 (112), Σ5 (120), and Σ5 (130) GBs, we show that the Σ3 (111) GB is always the most stable due to the absence of dangling bonds and wrong bonds. The Σ5 (120) GBs, however, are shown to be more stable than the Σ3 (112) GBs, even though the former has a higher Σ value, and the latter is often used as a model system to study GB effects in zinc-blende semiconductors. Moreover, we find that although containing wrong bonds, the Σ5 (120) GBs are electrically benign due to the short wrong bond lengths, and thus are not as harmful as the Σ3 (112) GBs also having wrong bonds but with longer bond lengths.

Original languageEnglish
Article number013027
JournalNew Journal of Physics
Volume17
DOIs
StatePublished - 15 Jan 2015

Bibliographical note

Publisher Copyright:
© 2015 IOP Publishing Ltd and Deutsche Physikalische Gesellschaft.

Keywords

  • II-VI semiconductors
  • grain bondaries
  • impurity and defect levels in semiconductors
  • radiation effects in semiconductors

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