在高碱性介质中用于析氧反应的CaFeCoO中催化活性边缘共享域的激活

Activation of Catalytically Active Edge-Sharing Domains in CaFeCoO for Oxygen Evolution Reaction in Highly Alkaline Media.

作者信息

Kowalski Damian, Kiuchi Hisao, Motohashi Teruki, Aoki Yoshitaka, Habazaki Hiroki

机构信息

Faculty of Engineering , Hokkaido University , N13W8, Sapporo 060-8628 , Japan.

Office of Society-Academia Collaboration for Innovation , Kyoto University , Kyoto 611-0011 , Japan.

出版信息

ACS Appl Mater Interfaces. 2019 Aug 14;11(32):28823-28829. doi: 10.1021/acsami.9b06854. Epub 2019 Aug 5.

DOI:10.1021/acsami.9b06854

PMID:31339683

Abstract

Rechargeable zinc-air batteries are considered as one of the possible candidates to replace conventional lithium-ion batteries. One of the requirements for effective battery operation is an oxygen evolution reaction (OER) that needs to be generated in a highly alkaline electrolyte. The ABB'O brownmillerite-type CaFeCoO electrocatalyst having a 57 symmetry exhibits very high electrocatalytic activity toward OER in 4 mol dm KOH. Our studies show that the electrocatalyst undergoes bulk amorphization upon OER and adequately activates catalytically active domains. The synchrotron radiation studies using the extended X-ray absorption fine structure (EXAFS) technique show that the central structural unit found in the polarized CaFeCoO is a cluster of edge-sharing CoO octahedra. The electrochemical data indicate that OER preferentially takes place on the edge-sharing CoO octahedra catalytic centers reconstructed in the brownmillerite-type electrocatalyst. The EXAFS second shell peaks at an interatomic distance of 2.8 Å are the fingerprints of the catalytically active domains.

摘要

可充电锌空气电池被认为是替代传统锂离子电池的可能候选者之一。有效电池运行的要求之一是在高碱性电解质中发生析氧反应（OER）。具有57对称性的ABB'O钙铁钴矿型CaFeCoO电催化剂在4 mol dm KOH中对OER表现出非常高的电催化活性。我们的研究表明，该电催化剂在OER过程中会发生体相非晶化，并充分激活催化活性域。使用扩展X射线吸收精细结构（EXAFS）技术的同步辐射研究表明，在极化的CaFeCoO中发现的中心结构单元是边缘共享的CoO八面体簇。电化学数据表明，OER优先发生在钙铁钴矿型电催化剂中重构的边缘共享CoO八面体催化中心上。EXAFS在2.8 Å原子间距离处的第二壳层峰是催化活性域的特征。

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