N.A. Noor scite author profile

Density functional theory based ab initio calculations are used to investigate the thermodynamic stability, defect formation energies, and electronic properties of isolated neutral and charged vacancies in SrHfO 3 under various chemical environments. We find that cation defects lead the system into a holedoped state, while oxygen vacancies yield defect levels near the conduction band minimum. The partial and full Schottky defect reaction energies and mixed electron hole conduction behavior of SrHfO 3 is also evaluated. Furthermore, various cases for neutral oxygen vacancy clustering are examined for tuning the electrical properties of oxygen deficient SrHfO 3 . We show that ordered oxygen vacancies in HfO layers are energetically favorable and induce metallicity in this system which emerges due to charge transfer between the vacancy site and the hafnium dangling bond.

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First-principles evaluation of Co-doped ZnS and ZnSe ferromagnetic semiconductors

Mahmood

Alay-e-Abbas

Hassan

et al. 2016

Journal of Alloys and Compounds

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N.A. Noor

The pressure-induced mechanical and optoelectronic behavior of cubic perovskite PbSnO3 via ab-initio investigations

First-principles calculations of structural, electronic and optical properties of CdxZn1−xS alloys

Thermodynamic Stability and Vacancy Defect Formation Energies in SrHfO₃

First-principles evaluation of Co-doped ZnS and ZnSe ferromagnetic semiconductors

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N.A. Noor

The pressure-induced mechanical and optoelectronic behavior of cubic perovskite PbSnO3 via ab-initio investigations

First-principles calculations of structural, electronic and optical properties of CdxZn1−xS alloys

Thermodynamic Stability and Vacancy Defect Formation Energies in SrHfO3

First-principles evaluation of Co-doped ZnS and ZnSe ferromagnetic semiconductors

Contact Info

Product

Resources

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Thermodynamic Stability and Vacancy Defect Formation Energies in SrHfO₃