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基于第一性原理研究对新型四元LiZrCoX(X = Ge,Sn)化合物的结构、光电、热电和热力学行为的理论见解。

Theoretical insights into the structural, optoelectronic, thermoelectric, and thermodynamic behavior of novel quaternary LiZrCoX (X = Ge, Sn) compounds based on first-principles study.

作者信息

Kumari Meena, Abraham Jisha Annie, Sharma Ramesh, Behera Debidatta, Mukherjee S K, Salah Mostafa M, Al-Anazy Murefah Mana, Alqahtani Mohammed S

机构信息

Department of Physics, National Defence Academy Pune 411023 India

Department of Applied Physics, Defence Institute of Advanced Technology Girinagar Pune-411025 India.

出版信息

RSC Adv. 2023 Oct 10;13(42):29522-29535. doi: 10.1039/d3ra03815g. eCollection 2023 Oct 4.

DOI:10.1039/d3ra03815g
PMID:37822649
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10562899/
Abstract

The structural, magnetic, electronic, elastic, vibrational, optical, thermodynamic as well as thermoelectric properties of newly predicted quaternary LiZrCoX (X = Ge, Sn) Heusler compounds are evaluated intricately with the aid of techniques developed under the framework of density functional theory. The computed structural properties are found to be in tandem with the existing analogous theoretical and experimental facts. Structural optimization has been carried out in three different structural arrangements, , Type-1, Type-2, and Type-3. Further analysis of the optimization curves reveals that the Type-3 phase, which has the least amount of energy, is the most stable structure for the compounds under consideration. The tabulated cohesive energy and formation energy of these compounds depict their chemical as well as thermodynamic stability. The absence of negative phonon frequencies in the phonon band spectrum of the studied compounds depicts their dynamic stability. Similarly, the tabulated second-order elastic constants () and the linked elastic moduli show their stability in the cubic phase. The calculated value of Pugh's ratio and Cauchy pressure reveal that LiZrCoGe is brittle whereas LiZrCoSn is ductile. Additionally, the optical characteristics of the compounds are studied in terms of the dielectric function, refractive index, extinction coefficient, absorption coefficient, reflectivity, energy loss function, and optical conductivity. The obtained high value of power factor and figure of merit of the studied lithium-based quaternary compounds predict good thermoelectric behavior in these compounds. Thus, LiZrCoX (X = Ge, Sn) compounds can therefore be used to create innovative and intriguing thermoelectric materials as well as optoelectronic and energy-harvesting equipment.

摘要

借助在密度泛函理论框架下开发的技术,对新预测的四元LiZrCoX(X = Ge,Sn)赫斯勒化合物的结构、磁性、电子、弹性、振动、光学、热力学以及热电性质进行了深入评估。计算得到的结构性质与现有的类似理论和实验事实一致。在三种不同的结构排列,即1型、2型和3型中进行了结构优化。对优化曲线的进一步分析表明,能量最低的3型相是所研究化合物最稳定的结构。这些化合物的内聚能和生成能列表描述了它们的化学稳定性和热力学稳定性。所研究化合物的声子能带谱中不存在负声子频率,这表明它们具有动态稳定性。同样,列表中的二阶弹性常数()和相关的弹性模量表明它们在立方相中的稳定性。计算得到的普格比和柯西压力值表明,LiZrCoGe是脆性的,而LiZrCoSn是韧性的。此外,从介电函数、折射率、消光系数、吸收系数、反射率、能量损失函数和光导率等方面研究了化合物的光学特性。所研究的锂基四元化合物获得的高功率因数和优值预测了这些化合物具有良好的热电性能。因此,LiZrCoX(X = Ge,Sn)化合物可用于制造创新且引人入胜的热电材料以及光电子和能量收集设备。

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