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Nanoscale Res Lett. 2012 Aug 31;7(1):488. doi: 10.1186/1556-276X-7-488.

Electronic structure and bandgap of γ-Al2O3 compound using mBJ exchange potential.

Author information

  • 1Department of Physics, Faculty of Science, University of Isfahan (UI), Hezar Gerib Avenue, Isfahan, 81744, Iran. sjalali@phys.ui.ac.ir.

Abstract

γ-Al2O3 is a porous metal oxide and described as a defective spinel with some cationic vacancies. In this work, we calculate the electronic density of states and band structure for the bulk of this material. The calculations are performed within the density functional theory using the full potential augmented plan waves plus local orbital method, as embodied in the WIEN2k code. We show that the modified Becke-Johnson exchange potential, as a semi-local method, can predict the bandgap in better agreement with the experiment even compared to the accurate but much more expensive green function method. Moreover, our electronic structure analysis indicates that the character of the valence band maximum mainly originates from the p orbital of those oxygen atoms that are close to the vacancy. The charge density results show that the polarization of the oxygen electron cloud is directed toward aluminum cations, which cause Al and O atoms to be tightly connected by a strong dipole bond.

PMID:
22937842
[PubMed]
PMCID:
PMC3503660
Free PMC Article
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