Abstract
First-principles all electrons density-functional calculations for the band structure and magnetization of Zn1−xCoxO ternary magnetic alloys, in three phases namely zinc-blende, rocksalt and wurtzite have been reported. The computations are spin-polarized. An inspection of our electronic properties showed that the alloy system of interest exhibits a semiconducting character where the nature of the gap depends on the considered phase. An analysis of electronic charge density suggests that the bonding has a partially covalent character for ZnO which becomes weaker as far as the Co concentration increases. CoO is found to reach a total magnetization of 3 μB per cell for zinc-blende and rocksalt phases and 6 μB per cell for wurtzite phase.
Highlights
Zinc-oxide (ZnO) is a II-VI semiconductor which is a promising material for device applications
Alloys made for ZnO and cobalt oxide (CoO) give Zn1 − xCoxO ternary alloys that are emerged as promising materials for different energy applications
The electronic band structure and magnetic properties of ZnO alloyed with CoO were studied
Summary
Research Article Keywords: Electronic structure, Magnetism, Zn1-xCoxO alloys, ab initio calculations. Version of Record: A version of this preprint was published at Optical and Quantum Electronics on July 22nd, 2021.
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