对用于能量收集应用的 Cs2XAgCl6（X= Sc、Y）化合物的第一原理认识

IF 1 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY

Digest Journal of Nanomaterials and Biostructures Pub Date : 2024-03-01 DOI:10.15251/djnb.2024.191.295

S. Aldaghfag, Nasarullah, A. Aziz, M. Ishfaq, M. Yaseen, Hafsa, S. Jamshaid

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引用次数: 0

摘要

本文通过第一原理方法分析了 Cs2XAgCl6（X= Sc，Y）的结构、电子、光学和热电特性。形成焓的负值进一步证实了这两种化合物的稳定结构。通过 Tran-Blaha 修正贝克-约翰逊（TBmBJ）电势，计算出 Cs2ScAgCl6 /Cs2YAgCl6 的电子带隙（Eg）分别为 3.78/4.86 eV。发现 Cs2ScAgCl6 和 Cs2YAgCl6 的公差系数（τ）分别为 0.9 和 1.0，这证实了这两种化合物稳定的立方性质。分析了介电函数ε(ω)、吸收系数α(ω)等光学因素以及 0 至 10 eV 能量跨度内的其他相关参数。这两种化合物在紫外区都有很高的吸收率，使它们成为光伏应用的理想材料。Cs2ScAgCl6 和 Cs2YAgCl6 的折射率计算值表明它们在紫外区具有超发光特性。在热电（TE）特性方面，使用 BoltzTraP 代码计算了电导率（σ/τ）、优点系数（ZT）、功率因数（PF）、热导率（k/τ）和塞贝克系数（S）。根据研究结果，这两种材料都被认为是热电和光电应用的理想候选材料。

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First principles insights into Cs2XAgCl6 (X= Sc, Y) compounds for energy harvesting applications

Herein, the investigation is presented to analyze the structural, electronic, optical, and thermoelectric features of Cs2XAgCl6 (X= Sc, Y) by applying the first principles approach. The confirmation of the stable structure of both compounds is reinforced by the negative values of formation enthalpies. The electronic band gaps (Eg) of 3.78/4.86 eV are computed for Cs2ScAgCl6 /Cs2YAgCl6 through Tran-Blaha modified Becke-Johnson (TBmBJ) potential, correspondingly. The tolerance factor(τ) is found as 0.9 for Cs2ScAgCl6 and 1.0 for Cs2YAgCl6 which confirmed the stable cubic nature of both compounds. Optical factors like dielectric-function ε(ω), absorption coefficient α(ω), and others related parameters are analyzed within 0 to 10 eV of energy span. Both compounds demonstrated high absorption in the ultraviolet region, rendering them as well-suited materials for photovoltaic applications. The calculated values of refractive index for Cs2ScAgCl6 and Cs2YAgCl6 indicated super-luminescent characteristics in the ultraviolet region. For thermoelectric (TE) features, electrical conductivity (σ/τ), figure of merit (ZT), power factor (PF), thermal conductivity (k/τ), and Seebeck coefficient (S) are calculated using the BoltzTraP code. According to the findings, both materials are advocated as promising candidates for thermoelectric and optoelectronic applications.

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来源期刊

Digest Journal of Nanomaterials and Biostructures 工程技术-材料科学：综合

CiteScore

1.50

自引率

22.20%

发文量

116

审稿时长

4.3 months

期刊介绍： Under the aegis of the Academy of Romanian Scientists Edited by: -Virtual Institute of Physics operated by Virtual Company of Physics.