Effect of dopants on the structural, optoelectronic and magnetic properties of pristine AgGaO3 perovskite: A first principles study

The structural, electronic and optical properties of pristine AgGaO3 and doped Ag1-xCrxGaO3 (x = 0.25, 0.50 and 0.75 at%) have been explored using first principle simulation based on density functional theory (DFT). The Perdew-Burke-Ernzerhof - Generalized Gradient Approximation (PBE-GGA) is used to optimize the geometry of pristine and Cr doped AgGaO3 systems. Structural analysis demonstrates that the calculated lattice parameters and unit cell volume decrease with the increase of Cr concentration. The incorporation of Cr at Ag sites significantly affects the electronic band gap of AgGaO3. All materials are found to be semiconductor with direct band gap values of 1.42 eV, 1.26 eV, 0.65 eV and 0.37 eV for pristine AgGaO3 and Cr doped Ag1-xCrxGaO3 (at x = 0.25, 0.50, 0.75 at%), respectively. The localized energy states of 75% Cr doped AgGaO3 play significant role to enhance optical conductivity. Further, Penn's model is confirmed by observing the inverse relationship between the dielectric function and electronic band gap. The significant variations noted in electronic band gap as well as optical characteristics caused by the doping of Cr declares that the doped materials are more appropriate candidates for solar cell and optoelectronic like applications as compared to pristine AgGaO3. It is further established that magnetism is induced in all Cr doped perovskites. The net magnetic moment computed for each Cr atom is 3 mu B. All doped systems are found to be ferromagnetic in nature.

Automated summary

The study investigated the structural, electronic, and optical properties of pristine AgGaO3 and doped Ag1-xCrxGaO3 using DFT simulations. It was found that Cr doping significantly affected the electronic band gap and optical conductivity, making the doped materials more suitable for solar cell and optoelectronic applications. Additionally, magnetism was induced in all Cr-doped perovskites with a net magnetic moment of 3 mu B per Cr atom.