通过第一原理计算研究预测的稳定卤化物 Perovskite ABX3 的机械和声学特性

IF 2.7 4区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS
Muhammad Shafiq , Bin Amin , Muhammad Awais Jehangir , Aijaz Rasool Chaudhry , G. Murataza
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引用次数: 0

摘要

这项研究考察了预测的稳定卤化物包晶的弹性、声学和热学特性。该研究通过 PBE-GGA 使用全电位线性化增强平面波 (FP-LAPW) 技术,在 WIEN2K 算法中计算化合物。此外,还使用了用于评估弹性张量的 ELATE 程序来绘制二维和三维图形。计算了体积模量、杨氏模量、剪切模量、各向异性系数、考希压力、普氏比、泊松比、克莱因曼参数、拉姆系数、维氏硬度、声速、格鲁尼森参数,甚至熔化温度和德拜温度。首次报告了大多数化合物的机械和弹性特性,表明所研究的高纯度材料(TlBeF3、BaAgBr3 和 CsTcl3 除外)具有稳定的机械特性,并且对剪切变形的抵抗力弱于对单向压缩的抵抗力。泊松比、普氏比和弗兰茨维奇比数据的结果证明,除 SrLiF3 外,所有材料都具有韧性。估算的泊松比数据表明,HPs 具有金属键性质,而只有 SrLiF3 表现出共价行为,ν = 0.23。SrLiF3、ZnLiF3、ZnScF3、CsRhCl3、CsRuCl3 和 CsBeCl3 的德拜温度大于 200 K,这表明它们具有硬度、热导率和高声速。较大的熔化温度值使它们适用于高温工业应用。CaCuBr3 的非谐波效应最高(3.265),而 SrLiF3 的非谐波效应最低(1.402)。目前的方法可以计算弹性和机械性能,提供对各种物理过程的实际理解,并使技术开发人员能够将化合物用于各种应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

First-principle calculations to investigate mechanical and acoustical properties of predicted stable halide Perovskite ABX3

First-principle calculations to investigate mechanical and acoustical properties of predicted stable halide Perovskite ABX3

This work examines the predicted stable halide perovskites' elastic, acoustical, and thermal characteristics. The work uses the Full Potential-Linearized Augmented Plane Wave (FP-LAPW) technique through PBE-GGA to compute compounds in the WIEN2K algorithm. The ELATE program for the evaluation of elastic tensors to plot 2D and 3D graphs was also used. The bulk modulus, Young's modulus, shear modulus, anisotropy factors, Cauchy pressure, Pugh's ratio, Poisson's ratio, Kleinman's parameter, Lame's coefficient, Vicker's hardness, sound velocities, Gruneisen parameter and even melting and Debye temperature were computed. The mechanical and elastic properties are reported for the first time for most of the compounds, demonstrating that the investigated HPs—aside from TlBeF3, BaAgBr3, and CsTcl3—are mechanically stable and exhibit weaker resistance against shear distortion than they do to unidirectional compression. The results of Poisson's, Pugh's, and Frantsevich's ratios data prove that all materials are ductile except SrLiF3. The estimated Poisson's ratio data indicates the metallic bonding nature of HPs, whereas only SrLiF3 exhibits covalent behavior with ν = 0.23. Debye temperature for SrLiF3, ZnLiF3, ZnScF3, CsRhCl3, CsRuCl3, and CsBeCl3 is greater than 200 K which signifies their hardness, thermal conductivity, and high sound velocities. The large melting temperature values, make them suitable for high-temperature industrial applications. The anharmonicity effect is highest for CaCuBr3 (3.265) and lowest for SrLiF3 (1.402). The current approach calculates elastic and mechanical properties, providing a practical understanding of various physical processes and enabling technology developers to utilize compounds in diverse applications.

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来源期刊
Journal of molecular graphics & modelling
Journal of molecular graphics & modelling 生物-计算机:跨学科应用
CiteScore
5.50
自引率
6.90%
发文量
216
审稿时长
35 days
期刊介绍: The Journal of Molecular Graphics and Modelling is devoted to the publication of papers on the uses of computers in theoretical investigations of molecular structure, function, interaction, and design. The scope of the journal includes all aspects of molecular modeling and computational chemistry, including, for instance, the study of molecular shape and properties, molecular simulations, protein and polymer engineering, drug design, materials design, structure-activity and structure-property relationships, database mining, and compound library design. As a primary research journal, JMGM seeks to bring new knowledge to the attention of our readers. As such, submissions to the journal need to not only report results, but must draw conclusions and explore implications of the work presented. Authors are strongly encouraged to bear this in mind when preparing manuscripts. Routine applications of standard modelling approaches, providing only very limited new scientific insight, will not meet our criteria for publication. Reproducibility of reported calculations is an important issue. Wherever possible, we urge authors to enhance their papers with Supplementary Data, for example, in QSAR studies machine-readable versions of molecular datasets or in the development of new force-field parameters versions of the topology and force field parameter files. Routine applications of existing methods that do not lead to genuinely new insight will not be considered.
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