Alloying induced superionic β-phase formation in Mg3Sb2 based Zintl compounds

IF 10.7 2区 材料科学 Q1 CHEMISTRY, PHYSICAL
Nagendra Singh Chauhan, Takao Mori
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Abstract

The off-centering phenomenon manifests as locally distorted configurations with broken symmetry in a crystal structure due to the displacement of constituent atoms from their ideal coordination centers within the lattice. In contrast to the anticipated formation of anionic solid solutions of Mg3(Sb1−xyBixGey)2, herein we report β-Mg3(Sb, Bi)2 based superionic phase formation (space group – IaAbstract Image, 206) with off-centering of the dominant trigonal α-Mg3(Sb, Bi)2 phase and segregation of nanophase Mg3Ge upon equiatomic (Bi, Ge) alloying. The discordant nature of Ge is unveiled within the layered α-Mg3(Sb, Bi)2 structure and is assessed employing (3 + 1) dimensional superspace to reveal an off-centering (dz) along the z direction for the constituent atoms in the range of ±0–0.02 Å. The (Bi, Ge) alloying results in favourable tuning of the desired p-type conduction for attaining higher power factors by band engineering and synergistic reduction of lattice thermal conductivity. The stable superionic polymorph co-existing in an anionic solid solution of Mg3(Sb, Bi)2 provides a renewed basis for understanding the crystal structure and its transformation in CaAl2Si2-type Zintl compounds.

Abstract Image

在 Mg3Sb2 基 Zintl 化合物中形成合金诱导的超离子 β 相
偏心现象表现为晶体结构中对称性被破坏的局部扭曲构型,这是由于组成原子偏离了它们在晶格内的理想配位中心。与预期的 Mg3(Sb1-x-yBixGey)2阴离子固溶体的形成相反,我们在此报告了基于超离子相形成的 β-Mg3(Sb,Bi)2(空间群 - Ia, 206),在等原子(Bi,Ge)合金化时,主要的三方α-Mg3(Sb,Bi)2 相偏离中心,并分离出纳米相 Mg3Ge。在层状 α-Mg3(Sb,Bi)2 结构中,Ge 的不和谐性质被揭示出来,并通过 (3 + 1) 维超空间进行评估,发现组成原子沿 z 方向的偏心 (dz) 在 ±0-0.02 Å 范围内。(Bi, Ge)合金化有利于调整所需的 p 型传导,从而通过带工程和协同降低晶格热导率获得更高的功率因数。在 Mg3(Sb,Bi)2 的阴离子固溶体中并存的稳定超离子多晶体为了解 CaAl2Si2 型 Zintl 化合物的晶体结构及其转变提供了新的基础。
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来源期刊
Journal of Materials Chemistry A
Journal of Materials Chemistry A CHEMISTRY, PHYSICAL-ENERGY & FUELS
CiteScore
19.50
自引率
5.00%
发文量
1892
审稿时长
1.5 months
期刊介绍: The Journal of Materials Chemistry A, B & C covers a wide range of high-quality studies in the field of materials chemistry, with each section focusing on specific applications of the materials studied. Journal of Materials Chemistry A emphasizes applications in energy and sustainability, including topics such as artificial photosynthesis, batteries, and fuel cells. Journal of Materials Chemistry B focuses on applications in biology and medicine, while Journal of Materials Chemistry C covers applications in optical, magnetic, and electronic devices. Example topic areas within the scope of Journal of Materials Chemistry A include catalysis, green/sustainable materials, sensors, and water treatment, among others.
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