Interfacial Fe−O−Ni−O−Fe Bonding Regulates the Active Ni Sites of Ni‐MOFs via Iron Doping and Decorating with FeOOH for Super‐Efficient Oxygen Evolution

Li, Cheng‐Fei; Xie, Lingjie; Zhao, J. W.; Gu, Lin‐Fei; Tang, Haibo; Zheng, Lirong; Li, Gao‐Ren

doi:10.1002/anie.202116934

articleAngewandte Chemie International EditionFeb 11, 2022Closed access

Interfacial Fe−O−Ni−O−Fe Bonding Regulates the Active Ni Sites of Ni‐MOFs via Iron Doping and Decorating with FeOOH for Super‐Efficient Oxygen Evolution

CLCheng‐Fei Li LXLingjie Xie JWJ. W. Zhao LGLin‐Fei Gu HTHaibo Tang

Sun Yat-sen University · Chinese Academy of Sciences · +3 more institutions

PubMed

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Abstract

Abstract The integration of Fe dopant and interfacial FeOOH into Ni‐MOFs [Fe‐doped‐(Ni‐MOFs)/FeOOH] to construct Fe−O−Ni−O−Fe bonding is demonstrated and the origin of remarkable electrocatalytic performance of Ni‐MOFs is elucidated. X‐ray absorption/photoelectron spectroscopy and theoretical calculation results indicate that Fe‐O−Ni−O−Fe bonding can facilitate the distorted coordinated structure of the Ni site with a short nickel–oxygen bond and low coordination number, and can promote the redistribution of Ni/Fe charge density to efficiently regulate the adsorption behavior of key intermediates with a near‐optimal d‐band center. Here the Fe‐doped‐(Ni‐MOFs)/FeOOH with interfacial Fe−O−Ni−O−Fe bonding shows…

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Topics & keywords

Topics

Keywords

Overpotential
Nickel
Materials science
Oxygen evolution
X-ray photoelectron spectroscopy
Dopant
Catalysis
Doping

UN Sustainable Development Goals

Clean water and sanitation

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Funding

NN
National Natural Science Foundation of China
Award: 91645104 and 21821003