Structural, Electronic, Elastic, Mechanical, Optical and Thermoelectric Properties of the Chalcogenide Double Perovskites A2GaNbS6 (A = Ca, Sr and Ba): Insights From Density Functional Theory Calculations

H. Bendjilali, A. Chahed, H. Rozale, M. Bousahla, Y. A. Khachai
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引用次数: 3

Abstract

Abstract Recently, the lead-free double perovskite compounds have been evinced to be promising candidate for thermoelectric and optoelectronic technologies. In this paper; we have probed a theoretical works on the different physical properties: Structural, electronic, elastic, optical and thermoelectrical properties of the chalcogenide double perovskites A2GaNbS6 (A=Ca, Sr and Ba) within the instructions of density functional theory. The calculations have incorporated using the full potential linearized augmented plane waves (FP-LAPW) method within gradient generalized approximation (GGA) and the modified Becke-Johnson potential (mBJ) to describe the exchange-correlation potential as embodied in the WIEN2K code. The computed structural results show that the non-magnetic structure state is energetically the most stable structure in the cubic Fm3̄m (225) configuration, also the elastic and mechanical properties indicate that A2GaNbS6 (A=Ca, Sr and Ba) have a ductile nature. According to the electronic plots the three compounds have a semiconducting behavior with indirect (pseudo-direct) band gap of 1.21, 1.28 and 1.32 eV. Important optical responses of studied chalcogenide double perovskites are found in the visible and ultraviolet energy ranges. Finally, the thermoelectric effectiveness of the three compounds have been probed by computing parameters like Seebeck coefficient, electrical conductivity, thermal conductivity and figure of merit with semi-classical Boltzmann theory and constant relaxation time approximation as implemented in BoltzTrap code, the obtained results show that the chalcogenide double perovskites could be a good candidate for thermoelectric applications.
硫系双钙钛矿A2GaNbS6 (A = Ca, Sr和Ba)的结构、电子、弹性、机械、光学和热电性质:来自密度泛函理论计算的见解
近年来,无铅双钙钛矿化合物已被证明是热电和光电子技术的有前途的候选者。在本文中;在密度泛函理论的指导下,对硫系双钙钛矿A2GaNbS6 (a =Ca, Sr和Ba)的结构、电子、弹性、光学和热电等不同物理性质进行了理论研究。计算结合了梯度广义近似(GGA)中的全势线性化增广平面波(FP-LAPW)方法和改进的Becke-Johnson势(mBJ)来描述WIEN2K代码中体现的交换相关势。结构计算结果表明,非磁性结构状态是立方Fm3 * m(225)结构中能量上最稳定的结构,并且弹性和力学性能表明A2GaNbS6 (A=Ca, Sr和Ba)具有延展性。根据电子图,这三种化合物具有半导体性质,间接(拟直接)带隙分别为1.21、1.28和1.32 eV。所研究的硫系双钙钛矿在可见光和紫外能区有重要的光学响应。最后,利用半经典玻尔兹曼理论和BoltzTrap代码实现的恒定松弛时间近似,通过计算塞贝克系数、电导率、导热系数和优值等参数,对三种化合物的热电效率进行了探讨,结果表明,硫系双钙钛矿具有良好的热电应用潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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