AB-INITIO study of electronic, mechanical, optical and thermoelectric properties of KGeCl3 for photovoltaic application
Mohammed ElSaid Sarhani, Tahar Dahame, Mohamed Lamine Belkhir, Bachir Bentria, Anfal Begagra
Abstract
In this theoretical study, the potential of KGeCl 3 was investigated as a lead-free perovskite active layer for perovskite solar cells. Calculations of the structural, electronic, elastic, optic, and thermoelectric properties of KGeCl 3 in its cubic, tetragonal, and orthorhombic phases were performed using the generalized gradient approximation (GGA) within the wien2k package. The findings demonstrated that the tetragonal crystalline structure of KGeCl3 exhibited the least energy content, rendering it the most thermodynamically stable phase. It was found that the electronic band structure of KGeCl 3 exhibited a direct band gap of 0.92 eV, thus positioning it as a material with promise for utilization as a photovoltaic absorber. Furthermore, the elastic properties of KGeCl 3 were calculated, indicating the presence of suitable mechanical stability for practical applications. Additionally, the optical properties and thermoelectric performance of KGeCl 3 were examined, thereby highlighting its potential for incorporation into thermoelectric devices. In summary, our research showcases how KGeCl 3 holds significant promise as a viable substitute for lead-based perovskite materials in applications such as solar cells and other optoelectronic devices.