Novel functional properties of charge-transition oxides synthesized under high pressure

IF 1.3 4区材料科学 Q3 MATERIALS SCIENCE, CERAMICS

Journal of the Ceramic Society of Japan Pub Date : 2023-10-01 DOI:10.2109/jcersj2.23115

Yuichi Shimakawa

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引用次数: 0

Abstract

Oxides containing unusually high-valence transition-metal ions often exhibit charge transitions to relieve the electronic instabilities. A-site-ordered quadruple perovskites LnCu3Fe4O12 with the unusually high-valence Fe3.75+, which are synthesized under high-pressure conditions, show intermetallic-charge-transfer transitions. In this review article, novel thermo-related functional properties induced by the charge transitions in LnCu3Fe4O12 are highlighted. A large negative-thermal-expansion behavior was observed at the intermetallic-charge-transfer transition temperature. The negative-thermal-expansion property is primarily caused by the size effect of constituent ions by the charge changes. The property is useful for developing materials to compensate the normal positive thermal expansion. Significant latent heat was also found to be provided by the intermetallic-charge-transfer transition in LnCu3Fe4O12. The large latent heat is considered to be related with unusual first-order magnetic entropy change induced by the charge transition. The large entropy change can be utilized for thermal control through a caloric effect, which can make effective energy systems for thermal energy storage and refrigeration.

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高压下合成的电荷跃迁氧化物的新功能性质

含有异常高价过渡金属离子的氧化物通常表现出电荷跃迁，以减轻电子的不稳定性。在高压条件下合成的具有异常高价Fe3.75+的a位有序四重钙钛矿LnCu3Fe4O12表现出金属间电荷转移转变。在这篇综述中，重点介绍了LnCu3Fe4O12中电荷跃迁引起的新的热相关功能特性。在金属间电荷转移转变温度处观察到较大的负热膨胀行为。负热膨胀特性主要是由电荷变化引起的组成离子的尺寸效应引起的。该性质对显影材料补偿正常的正热膨胀是有用的。LnCu3Fe4O12的金属间电荷转移转变也提供了显著的潜热。大潜热被认为与电荷跃迁引起的异常一阶磁熵变化有关。大熵变可以通过热效应用于热控制，这可以使有效的能量系统用于热能储存和制冷。

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来源期刊

Journal of the Ceramic Society of Japan 工程技术-材料科学：硅酸盐

CiteScore

2.10

自引率

18.20%

发文量

170

审稿时长

2 months

期刊介绍： The Journal of the Ceramic Society of Japan (JCS-Japan) publishes original experimental and theoretical researches and reviews on ceramic science, ceramic materials, and related fields, including composites and hybrids. JCS-Japan welcomes manuscripts on both fundamental and applied researches.