双过氧化物可逆氧电极氧氧化还原反应动力学研究--第一部分：实验分析

IF 7 3区材料科学 Q1 ENERGY & FUELS

Journal of Physics-Energy Pub Date : 2023-11-30 DOI:10.1088/2515-7655/ad0e29

Antonio Maria Asensio, Fiammetta Rita Bianchi, Davide Clematis, Barbara Bosio, Antonio Barbucci

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引用次数: 1

摘要

无碳能源转型需要推广基于高性能材料的先进技术。在这一框架内，特别是在电化学能量转换系统方面，双包晶石作为混合离子电子导体，具有制造灵活、适合多种任务和化学稳定性高等特点，正引起越来越多的关注。在可能的应用领域中，双包晶石可在固体氧化物电池技术中形成优良的氧电极，用作燃料电池、蒸汽/二氧化碳电解池和电化学空气分离装置。鉴于 SmBa1-xCaxCo2O5+δ 共掺杂双包晶石取得了令人鼓舞的成果，本研究工作旨在详细分析 SmBa0.8Ca0.2Co2O5+δ 的性能，并确定氧还原和氧化反应的动力学路径。电化学表征是在广泛的操作条件下进行的，目的是评估电极的可逆行为以及支配整个电极动力学的公认现象之间的相互作用。

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A kinetic study on oxygen redox reaction of a double-perovskite reversible oxygen electrode—Part I: Experimental analysis

The carbon-free energy transition requires the spread of advanced technologies based on high-performing materials. In this framework and particularly referring to electrochemical energy converting systems, double perovskites are arousing more and more interest as mixed ionic electronic conductors with flexible manufacturing, appropriate tailoring for many tasks and high chemical stability. Among their possible applications, they form excellent oxygen electrodes in solid oxide cell technology used as fuel cells, steam/CO₂ electrolysis cells and electrochemical air separation units. In view of the encouraging results shown by SmBa_1−xCa _x Co₂O_5+δ co-doped double perovskite, this research work aims at a detailed analysis of SmBa_0.8Ca_0.2Co₂O_5+δ performance and the identification of kinetic paths for oxygen reduction and oxidation reactions. The electrochemical characterization was performed over a wide range of operation conditions to evaluate the electrode reversible behaviour and the interplay of the recognized phenomena governing the overall electrode kinetics.

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来源期刊

Journal of Physics-Energy Multiple-

CiteScore

10.90

自引率

1.40%

发文量

期刊介绍： The Journal of Physics-Energy is an interdisciplinary and fully open-access publication dedicated to setting the agenda for the identification and dissemination of the most exciting and significant advancements in all realms of energy-related research. Committed to the principles of open science, JPhys Energy is designed to maximize the exchange of knowledge between both established and emerging communities, thereby fostering a collaborative and inclusive environment for the advancement of energy research.