Exploring the physical properties of Rb2TlSbM6 (M = Cl, Br) inorganic halide perovskites for solar cell applications: A DFT study

卤化物 钙钛矿(结构) 带隙 热电效应 材料科学 密度泛函理论 直接和间接带隙 太阳能电池 化学 光电子学 计算化学 无机化学 热力学 结晶学 物理
作者
Abeer Mera,Muhammad Awais Rehman,Zia ur Rehman,Zahid Sarfraz,Muhammad Sohaib,Jawaria Fatima,Muhammad Usman
出处
期刊:Inorganic Chemistry Communications [Elsevier BV]
卷期号:165: 112528-112528 被引量:15
标识
DOI:10.1016/j.inoche.2024.112528
摘要

We studied Rb2TlSbM6 (M = Cl, Br) halides using density functional theory calculations to determine their potential thermoelectric and optoelectronic properties. The stability of cubic phase halides was analyzed through Goldsmith's tolerance factor and enthalpy of formation calculations. By analyzing the electronic characteristics, the bandgap of Rb2TlSbCl6 (Eg=1.713eV) and Rb2TlSbBr6 (Eg=1.713eV) were calculated with GGA-PBE potentials for improved accuracy and comparison with reported values. The high absorption coefficient of Rb2TlSbM6 (M = Cl, Br) perovskite halides in the ultraviolet spectrum and low reflectivity in the order of 20 % make them promising for optoelectronics and photovoltaic applications. The Poisson and Pugh ratio calculations suggested the ductile nature of these materials. The Boltz-TraP code was employed to investigate the thermoelectric properties of Rb2TlSbM6 (M = Cl, Br) perovskites within the temperature range of (200–850 K). The findings demonstrate that Rb2TlSbM6 (M = Cl, Br) is a promising candidate for thermoelectric applications based on its exceptional thermoelectric properties. The SLME analysis performed on Rb2TlSbCl6 and Rb2TlSbBr6 at 293 K indicates an SLME of 31.04 % and 27.53 %, respectively. This finding suggests that these materials have great potential for utilization in solar cells.

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