First principles insight into the study of the structural, stability, and optoelectronic properties of alkali-based single halide perovskite ZSnCl3 (Z = Na/K) materials for photovoltaic applications

IF 3.4 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Tesfaye Abebe Geleta, Debidatta Behera, Nabil Bouri, Victor José Ramirez Rivera, Fredy Mamani Gonzalo
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引用次数: 0

Abstract

Metal halide perovskites are crystalline materials with a sharp increase in popularity and rapidly becoming a major contender for optoelectronic device applications. In this work, we provide the optoelectronic features of a possible novel candidate, ZSnCl3 (Z = Na/K) Sn-based on a detailed numerical simulation. The output of the current computations is compared to the results that are currently available, and a respectable agreement is noted. The studied compounds were cubic in nature and structurally stabe. The mechanical properties reflect the mechanical stability and ductility of the proposed materials. The Sn-based single perovskite compounds proposed in this study are mechanically stable and ductile. The narrow direct band gap for NaSnCl3 and KSnCl3 are 1.36 eV and 1.47 eV, respectively, using the HSE06 hybrid function with the Boltztrp2 integrated in Quantum ESPRESSO (QE) software. The effective use of these compounds in perovskite solar cells and other optoelectronic applications was confirmed by optical absorption spectral measurements conducted in the photon energy range of 0–20 eV.

对用于光伏应用的碱基单一卤化物包晶 ZSnCl3(Z = Na/K)材料的结构、稳定性和光电特性研究的第一原理见解。
金属卤化物包光体是一种晶体材料,其受欢迎程度急剧上升,并迅速成为光电器件应用的主要竞争者。在这项工作中,我们基于详细的数值模拟,提供了一种可能的新型候选材料 ZSnCl3(Z = Na/K)Sn 的光电特性。我们将目前的计算结果与现有的结果进行了比较,发现两者的结果相当吻合。所研究的化合物为立方性质,结构稳定。机械性能反映了所提材料的机械稳定性和延展性。本研究提出的锡基单一过氧化物化合物具有机械稳定性和延展性。利用量子 ESPRESSO(QE)软件中的 HSE06 混合函数与 Boltztrp2 集成,NaSnCl3 和 KSnCl3 的直接窄带隙分别为 1.36 eV 和 1.47 eV。在 0-20 eV 的光子能量范围内进行的光吸收光谱测量证实了这些化合物在包晶太阳能电池和其他光电应用中的有效应用。
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来源期刊
CiteScore
6.60
自引率
3.30%
发文量
247
审稿时长
1.7 months
期刊介绍: This distinguished journal publishes articles concerned with all aspects of computational chemistry: analytical, biological, inorganic, organic, physical, and materials. The Journal of Computational Chemistry presents original research, contemporary developments in theory and methodology, and state-of-the-art applications. Computational areas that are featured in the journal include ab initio and semiempirical quantum mechanics, density functional theory, molecular mechanics, molecular dynamics, statistical mechanics, cheminformatics, biomolecular structure prediction, molecular design, and bioinformatics.
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