First principles investigation of electronic and optical properties of AgAlO₂

The electronic and optical properties of AgAlO₂ were determined by using Generalized Gradient Approximation (GGA) suggested by Perdew–Burke–Ernzerhof (PBE) with the addition of Hubbard potential along with linearized augmented plane wave pseudopotential. Our computed band structure infers that our calculated bandgap (1.5 eV) is closer to the experimental (2.81 eV) as compare to the previous theoretical values (1.16 eV). The investigated band structure also reflects that AgAlO₂ is an indirect semiconductor material. The investigated atomic positions and lattice constants are in good agreement with the experimental values than the earlier theoretical values. From presented optical properties one can observe that AgAlO₂ is a good conducting material. The absorption spectrum infers that AgAlO₂ is an expensive material for photo-electronic devices or solar-cell applications.