Ab initio study of double oxides ZnX2O4 (X 5Al, Ga, In) having spinel structure

Smagul Z. Karazhanovw; Ponniah Ravindran

doi:10.1111/j.1551-2916.2010.03864.x

Ab initio study of double oxides ZnX₂O₄ (X ₅Al, Ga, In) having spinel structure

Smagul Z. Karazhanovw
, Ponniah Ravindran

University of Oslo
Institute for Energy Technology
Academy of Sciences of the Republic of Uzbekistan

Research output: Contribution to journal › Article › peer-review

57 Citations (Scopus)

Abstract

Electronic structure and optical spectra of ZnX₂O₄ (X₅Al, Ga, and In) have been studied by density functional calculations. It is shown that ZnX₂O₄ posses a large fundamental band gap and a second gap defined as the energy difference between the two lowest conduction band (CB) energies. The second gap is found to be ̃2 eV for ZnAl₂O₄ and >2.8 for ZnGa ₂O₄ and ZnIn₂O₄. The bottommost CB for ZnX₂O₄ is well dispersive, which means that these materials possess the feature to conduct electrical current by CB electrons. Effective masses of electrons and holes are of the same order as those of the well-known ZnO and In₂O₃. Optimized equilibrium structural parameters and bulk modulus for ZnAl₂O₄ and ZnGa ₂O₄ are found to be in good agreement with the available experimental values and these values for ZnIn₂O₄ are predicted. Chemical bonding is found to be mixed ionic-covalent with predominant ionic character.

Original language	English
Pages (from-to)	3335-3341
Number of pages	7
Journal	Journal of the American Ceramic Society
Volume	93
Issue number	10
DOIs	https://doi.org/10.1111/j.1551-2916.2010.03864.x
Publication status	Published - Oct 2010
Externally published	Yes

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title = "Ab initio study of double oxides ZnX2O4 (X 5Al, Ga, In) having spinel structure",

abstract = "Electronic structure and optical spectra of ZnX2O4 (X5Al, Ga, and In) have been studied by density functional calculations. It is shown that ZnX2O4 posses a large fundamental band gap and a second gap defined as the energy difference between the two lowest conduction band (CB) energies. The second gap is found to be{\~ }2 eV for ZnAl2O4 and >2.8 for ZnGa 2O4 and ZnIn2O4. The bottommost CB for ZnX2O4 is well dispersive, which means that these materials possess the feature to conduct electrical current by CB electrons. Effective masses of electrons and holes are of the same order as those of the well-known ZnO and In2O3. Optimized equilibrium structural parameters and bulk modulus for ZnAl2O4 and ZnGa 2O4 are found to be in good agreement with the available experimental values and these values for ZnIn2O4 are predicted. Chemical bonding is found to be mixed ionic-covalent with predominant ionic character.",

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AU - Karazhanovw, Smagul Z.

AU - Ravindran, Ponniah

PY - 2010/10

Y1 - 2010/10

N2 - Electronic structure and optical spectra of ZnX2O4 (X5Al, Ga, and In) have been studied by density functional calculations. It is shown that ZnX2O4 posses a large fundamental band gap and a second gap defined as the energy difference between the two lowest conduction band (CB) energies. The second gap is found to be ̃2 eV for ZnAl2O4 and >2.8 for ZnGa 2O4 and ZnIn2O4. The bottommost CB for ZnX2O4 is well dispersive, which means that these materials possess the feature to conduct electrical current by CB electrons. Effective masses of electrons and holes are of the same order as those of the well-known ZnO and In2O3. Optimized equilibrium structural parameters and bulk modulus for ZnAl2O4 and ZnGa 2O4 are found to be in good agreement with the available experimental values and these values for ZnIn2O4 are predicted. Chemical bonding is found to be mixed ionic-covalent with predominant ionic character.

AB - Electronic structure and optical spectra of ZnX2O4 (X5Al, Ga, and In) have been studied by density functional calculations. It is shown that ZnX2O4 posses a large fundamental band gap and a second gap defined as the energy difference between the two lowest conduction band (CB) energies. The second gap is found to be ̃2 eV for ZnAl2O4 and >2.8 for ZnGa 2O4 and ZnIn2O4. The bottommost CB for ZnX2O4 is well dispersive, which means that these materials possess the feature to conduct electrical current by CB electrons. Effective masses of electrons and holes are of the same order as those of the well-known ZnO and In2O3. Optimized equilibrium structural parameters and bulk modulus for ZnAl2O4 and ZnGa 2O4 are found to be in good agreement with the available experimental values and these values for ZnIn2O4 are predicted. Chemical bonding is found to be mixed ionic-covalent with predominant ionic character.

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Ab initio study of double oxides ZnX₂O₄ (X ₅Al, Ga, In) having spinel structure

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