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基于过渡金属的新型四元赫斯勒合金CoNbMnZ(Z = Ge,Sn)的综合密度泛函理论研究:适用于自旋相关和热电应用

Comprehensive DFT investigation of transition-metal-based new quaternary Heusler alloys CoNbMnZ (Z = Ge, Sn): compatible for spin-dependent and thermoelectric applications.

作者信息

Seh Ab Quyoom, Gupta Dinesh C

机构信息

Condensed Matter Theory Group, School of Studies in Physics, Jiwaji University Gwalior-474011 India

出版信息

RSC Adv. 2020 Dec 9;10(71):43870-43881. doi: 10.1039/d0ra08007a. eCollection 2020 Nov 27.

DOI:10.1039/d0ra08007a
PMID:35519700
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9058381/
Abstract

The hunt for high spin polarization and efficient thermoelectric materials has endured for decades. In this paper, we have explored the structural, mechanical stability, magneto-electronic, and thermoelectric properties of two new quaternary Heusler alloys, CoNbMnZ (Z = Ge, Sn), using first-principles simulation methods. The alloys are stable, showing a Y-type phase and ferromagnetic nature. Based on a generalized gradient approximation method, the alloys exhibit metallic nature; upon employing a modified version of the Becke-Johnson potential, both alloys demonstrate half-metallic nature, with gaps of 0.43 and 0.45 eV, which is a precursor for high spin polarization in these alloys. The alloys also follow the necessary Slater-Pauling rule condition = - 24 for half-metallicity and they have a total magnetic moment of 1 . Elastic parameters convey the mechanical stabilities of these alloys, with Debye temperatures of 518 K and 445 K. These materials act as anisotropic media with respect to longitudinal and transverse sound velocities. Possible energy efficiency and thermoelectric applications were scrutinized computing Seebeck coefficients, electrical and electronic lattice thermal conductivities, and, lastly, power factors. The highest values for Ge- and Sn-based alloys are 60.43 and 68.2 μV K, respectively, and the highest power factors are 32 and 35 μW K cm, respectively, suggesting potential efficient applications in thermoelectric power generation.

摘要

寻找高自旋极化和高效热电材料的工作已经持续了数十年。在本文中,我们使用第一性原理模拟方法探索了两种新型四元赫斯勒合金CoNbMnZ(Z = Ge,Sn)的结构、力学稳定性、磁电和热电性能。这些合金是稳定的,呈现Y型相和铁磁性质。基于广义梯度近似方法,这些合金表现出金属性质;在采用修正版的贝克-约翰逊势时,两种合金都表现出半金属性质,能隙分别为0.43和0.45电子伏特,这是这些合金中高自旋极化的一个先兆。这些合金还遵循半金属性的必要斯莱特-泡林规则条件 = - 24,并且它们的总磁矩为1 。弹性参数表明了这些合金的力学稳定性,德拜温度分别为518 K和445 K。这些材料对于纵向和横向声速而言表现为各向异性介质。通过计算塞贝克系数、电和电子晶格热导率,最后计算功率因子,对可能的能量效率和热电应用进行了详细研究。基于锗和锡的合金的最高 值分别为60.43和68.2微伏/开尔文,最高功率因子分别为32和35微瓦/开尔文²厘米,这表明它们在热电发电方面具有潜在的高效应用。

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