用于高效持久析氧反应的镍铁层状双氢氧化物的燃烧生长

Combustion Growth of NiFe Layered Double Hydroxide for Efficient and Durable Oxygen Evolution Reaction.

作者信息

Zhou Yu, Gao Jinqiang, Ju Min, Chen Yanpeng, Yuan Haifeng, Li Simeng, Li Jinlong, Guo Dongxuan, Hong Mei, Yang Shihe

机构信息

College of Chemistry and Chemical Engineering, Qiqihar University, Qiqihar 161006, China.

Guangdong Provincial Key Laboratory of Nano-Micro Materials Research, School of Advanced Materials, Peking University Shenzhen Graduate School, Shenzhen 518055, China.

出版信息

ACS Appl Mater Interfaces. 2024 Jun 5;16(22):28526-28536. doi: 10.1021/acsami.4c03766. Epub 2024 May 22.

DOI:10.1021/acsami.4c03766

PMID:38775170

Abstract

NiFe layered double hydroxide (LDH) with abundant heterostructures represents a state-of-the-art electrocatalyst for the alkaline oxygen evolution reaction (OER). Herein, NiFe LDH/FeO nanosheet arrays have been fabricated by facile combustion of corrosion-engineered NiFe foam (NFF). The in situ grown, self-supported electrocatalyst exhibited a low overpotential of 248 mV for the OER at 50 mA cm, a small Tafel slope of 31 mV dec, and excellent durability over 100 h under the industrial benchmarking 500 mA cm current density. A balanced Ni and Fe composition under optimal corrosion and combustion contributed to the desirable electrochemical properties. Comprehensive ex-situ analyses and operando characterizations including Fourier-transformed alternating current voltammetry (FTACV) and in situ Raman demonstrate the beneficial role of modulated interfacial electron transfer, dynamic atomic structural transformation to NiOOH, and the high-valence active metal sites. This study provides a low-cost and easy-to-expand way to synthesize efficient and durable electrocatalysts.

摘要

具有丰富异质结构的镍铁层状双氢氧化物（LDH）是一种用于碱性析氧反应（OER）的先进电催化剂。在此，通过对腐蚀工程化的泡沫镍铁（NFF）进行简便燃烧制备了镍铁LDH/FeO纳米片阵列。这种原位生长、自支撑的电催化剂在50 mA cm的电流密度下，析氧反应的过电位低至248 mV，塔菲尔斜率小至31 mV dec，并且在工业基准500 mA cm的电流密度下具有超过100小时的优异耐久性。在最佳腐蚀和燃烧条件下实现的镍和铁的平衡组成有助于获得理想的电化学性能。包括傅里叶变换交流伏安法（FTACV）和原位拉曼光谱在内的综合非原位分析和原位表征证明了调制界面电子转移、向NiOOH的动态原子结构转变以及高价活性金属位点的有益作用。本研究提供了一种低成本且易于扩展的方法来合成高效耐用的电催化剂。

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用于高效持久析氧反应的镍铁层状双氢氧化物的燃烧生长

Combustion Growth of NiFe Layered Double Hydroxide for Efficient and Durable Oxygen Evolution Reaction.

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