用于铁基高效析氧电极的腐蚀工程形貌与晶体结构调控

Corrosion-Engineered Morphology and Crystal Structure Regulation toward Fe-Based Efficient Oxygen Evolution Electrodes.

作者信息

Wang Ying, Yang Zhengbang, Zhang Zhonghua, He Ming

机构信息

State Key Laboratory of Biobased Material and Green Papermaking, Qilu University of Technology (Shandong Academy of Sciences), Jinan 250353, China.

Key Laboratory for Liquid-Solid Structural Evolution and Processing of Materials (Ministry of Education), School of Materials Science and Engineering, Shandong University, Jinan 250061, China.

出版信息

Nanomaterials (Basel). 2022 Jun 8;12(12):1975. doi: 10.3390/nano12121975.

DOI:10.3390/nano12121975

PMID:35745313

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9228532/

Abstract

The rational regulation of catalysts with a well-controlled morphology and crystal structure has been demonstrated effective for optimizing the electrochemical performance. Herein, corrosion engineering was employed for the straightforward preparation of FeAl layered double hydroxide (LDH) nanosheets and FeO nanooctahedrons via the feasible modification of dealloying conditions. The FeAl-LDH nanosheets display an excellent catalytic performance for oxygen evolution reactions in 1 M KOH solution, such as low overpotentials (333 mV on glass carbon electrode and 284 mV on Ni foam at 10 mA cm), a small Tafel slope (36 mV dec), and excellent durability (24 h endurance without deactivation). The distinguished catalytic features of the FeAl-LDH nanosheets comes from the Al and Fe synergies, oxygen vacancies, and well-defined two-dimensional (2D) layered LDH structure.

摘要

事实证明，对具有良好控制的形貌和晶体结构的催化剂进行合理调控，对于优化电化学性能是有效的。在此，通过对脱合金条件进行可行的改性，采用腐蚀工程直接制备了FeAl层状双氢氧化物（LDH）纳米片和FeO纳米八面体。FeAl-LDH纳米片在1 M KOH溶液中对析氧反应表现出优异的催化性能，如低过电位（在玻璃碳电极上为333 mV，在泡沫镍上为284 mV，电流密度为10 mA cm）、小塔菲尔斜率（36 mV dec）和优异的耐久性（24小时耐久性且不失活）。FeAl-LDH纳米片卓越的催化特性源于Al和Fe的协同作用、氧空位以及明确的二维（2D）层状LDH结构。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/222e/9228532/514bce6a56ab/nanomaterials-12-01975-g001.jpg

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用于铁基高效析氧电极的腐蚀工程形貌与晶体结构调控

Corrosion-Engineered Morphology and Crystal Structure Regulation toward Fe-Based Efficient Oxygen Evolution Electrodes.

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