高锰硅化物:热电应用的诺沃特尼烟囱梯相

IF 6.1 Q2 CHEMISTRY, PHYSICAL Chemical physics reviews Pub Date : 2023-10-23 DOI:10.1063/5.0167220
Nagendra S. Chauhan, Yuzuru Miyazaki
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引用次数: 0

摘要

诺沃特尼烟囱梯相(NCL)是金属间二元化合物,通常以四方晶体结构结晶,由两个独立的子系统组成。NCL相丰富的固态化学继承了迷人的晶格动力学和独特的结构修饰能力。作为热电应用中广泛研究的能源材料,我们概述了高锰硅化物(MnSiγ)结构解释的新兴方面,这是NCL相的一个突出探索的例子。本文讨论了对MnSiγ不匹配复合晶体的研究进展,重点介绍了其功能晶体学,并提出了有效的策略,以获得对载流子(浓度、迁移率、有效质量)和声子(晶格热导率)的有利修饰。研究了合理优化无因次热电性能图(zT)的应用潜力和前瞻性策略,并提出了在MnSiγ和相关NCL相中进行化学改性的可能性。
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Higher manganese silicides: A Nowotny chimney ladder phase for thermoelectric applications
Nowotny chimney ladder (NCL) phases are intermetallic binary compounds that typically crystallize in a tetragonal crystal structure and constitute of two separate subsystems. The rich solid-state chemistry of NCL phases inherits fascinating lattice dynamics with unique abilities for structural modifications. As an extensively studied energy material for the thermoelectric application, we overview the emerging aspects for structural interpretation in higher manganese silicides (MnSiγ), a prominently explored example of NCL phase. The progress in understanding the incommensurate composite crystals of MnSiγ is discussed to highlight its functional crystallography for proposing the effective strategies to attain favorable modification of transport properties of charge carriers (concentration, mobility, effective mass), and phonons (lattice thermal conductivity). The application potential and prospective strategies for enabling the rational optimization of the dimensionless thermoelectric figure of merit (zT) are examined, and the possibilities of chemical modification in MnSiγ and related NCL phases are presented.
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