探索用于可逆调节钙钛矿铁氧化物热导率的拓扑化学氧化反应。

Exploring Topochemical Oxidation Reactions for Reversible Tuning of Thermal Conductivity in Perovskite Fe Oxides.

作者信息

Varela-Domínguez Noa, Claro Marcel S, Carbó-Argibay Enrique, Magén César, Rivadulla Francisco

机构信息

Centro Singular de Investigación en Química Biolóxica e Materiais Moleculares (CIQUS), Departamento de Química-Física, Universidade de Santiago de Compostela, 15782 Santiago de Compostela, Spain.

International Iberian Nanotechnology Laboratory (INL), Avenida Mestre José Veiga s/n, 4715-330 Braga, Portugal.

出版信息

Chem Mater. 2024 Oct 9;36(20):10249-10258. doi: 10.1021/acs.chemmater.4c02023. eCollection 2024 Oct 22.

DOI:10.1021/acs.chemmater.4c02023

PMID:39464294

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11500631/

Abstract

We present a study on the reversibility of thermal conductivity in iron oxides through topochemical oxygen exchange between brownmillerite (BM) (Ca,Sr)FeO and perovskite (PV) (Ca,Sr)FeO. By using different oxidation methods, including gas phase (O/O), liquid phase (NaOCl in HO), and solid electrolyte (YO:ZrO), we demonstrate that the oxidation pathway has a critical influence on the reversibility of the ionic-exchange process. Cyclic oxidation and reduction using O/O or NaOCl lead to an important accumulation of structural defects, undermining the reversibility of thermal conductivity. In the case of wet oxidation, we demonstrate an inherent tendency of negative charge-transfer oxides toward amorphization and elucidate the origin of this effect. Conversely, the electrochemical injection of the O ions via a YO:ZrO solid electrolyte reduces structural damage significantly, enhancing both reversibility and durability. This study underscores the importance of selecting appropriate topochemical oxygen exchange methods to maintain structural integrity and optimize functional performance in oxide-based tunable devices.

摘要

我们展示了一项关于通过褐锰矿（BM）（Ca，Sr）FeO与钙钛矿（PV）（Ca，Sr）FeO之间的拓扑化学氧交换来研究氧化铁中热导率可逆性的研究。通过使用不同的氧化方法，包括气相（O/O）、液相（HO中的NaOCl）和固体电解质（YO:ZrO），我们证明氧化途径对离子交换过程的可逆性有至关重要的影响。使用O/O或NaOCl进行循环氧化和还原会导致结构缺陷的重要积累，破坏热导率的可逆性。在湿氧化的情况下，我们证明了负电荷转移氧化物向非晶化的固有趋势，并阐明了这种效应的起源。相反，通过YO:ZrO固体电解质电化学注入O离子可显著减少结构损伤，提高可逆性和耐久性。这项研究强调了选择合适的拓扑化学氧交换方法以维持结构完整性并优化基于氧化物的可调谐器件功能性能的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9fcf/11500631/ad8775eb7443/cm4c02023_0002.jpg

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探索用于可逆调节钙钛矿铁氧化物热导率的拓扑化学氧化反应。

Exploring Topochemical Oxidation Reactions for Reversible Tuning of Thermal Conductivity in Perovskite Fe Oxides.

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