期刊
MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING
卷 151, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.mssp.2022.107017
关键词
Lead -free halide perovskites solar cell; First -principles investigation; Inorganic halide perovskites; Ge-based halide perovskites; Structural; Electronic; And optical properties
类别
资金
- Penn State Materials Research Institute (MRI)
- Penn State Institutes of Energy and Environment (IEE)
This study investigated the structural, electronic, and optical properties of the CsGeI3-xBrx halide perovskite system and compared them to the extensively studied CsPbI3. The substitution of Pb2+ with Ge2+ led to structural distortion and changes in the bandgap, while the mixed halide compounds significantly altered the optical properties.
A stable, non-toxic, environmentally benign substitute to the Pb2+ cation is indispensable for large-scale commercialization of the halide perovskite optoelectronic devices in general and the halide perovskite solar cells specifically. In this paper, Density Functional Theory (DFT) with two exchange-correlation functionals PBE and PBEsol, was employed to investigate the structural, electronic, and optical properties of the trigonal inorganic CsGeI3-xBrx halide Perovskite system (x = 0, 1, 2 and 3 which representing Br content). The system's properties were compared to the cubic alpha-CsPbI3 which has been extensively investigated. Our results confirmed that replacing the Pb2+ cation with the Ge2+ cation caused a distortion in the halide octahedral cage which results in a non-centrosymmetric structure. The changes in the structural properties resulted in changes in the electronic and optical properties. A strong negative correlation was found between the Ge -X bond length and the bandgap. The electronic density of states revealed that only I 5p, Br 4p, and Ge 4s states contributed to the valence band maximum, (VBM), whereas, the conduction band minimum, (CBM), is mainly contributed by Ge 4p states in the CsGeI3-xBrx system. Having the mixed halide compounds altered the electronic and optical properties significantly. As the bromide content increases, the bandgap increases, and the optical absorption band widenes. Replacing the Pb2+ with Ge2+ has red-shifted the absorption peaks and has altered the optical behavior to be anisotropic. This study shed some light on the high-potential of tuning and optimizing the optoelectronic properties of the Ge- based mixed halide perovskite family for the photovoltaic tandem solar cells and other optoelectronic devices.
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