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- Title
Evoking Cooperative Geometric and Electronic Interactions at Nanometer Coherent Interfaces toward Enhanced Electrocatalysis.
- Authors
Song, Huijun; Xu, Xiaoqiu; Chen, Jingjing; Zhang, Yinling; Zhao, Jia; Zhu, Chongzhi; Zhang, Hong; Peng, Yong; Chen, Qiaoli; Sheng, Guan; Sun, Tulai; Han, Yu; Li, Xiaonian; Zhu, Yihan
- Abstract
Integrating high‐valence metal sites into transition metal‐based oxygen evolution reaction (OER) catalysts turns out to be a prevailing solution to replacing noble metal‐based electrocatalysts. However, stabilizing the thermodynamically unfavorable high‐valence metal sites within the electrocatalyst remains challenging. Hereby, a general strategy is proposed that evokes cooperative geometric and electronic interactions at nanometer coherent interfaces, which effectively stabilizes interfacial high‐valence metal sites within homogeneously distributed heterostructures and significantly enhances electrocatalytic activity. As a proof‐of‐concept study, by derivatizing multicomponent isoreticular hybridized metal–organic frameworks with separated σ‐ or π‐bonded moieties, bimetal Ni–Fe selenides heterostructures with nanoscopic compositional and structural homogeneity are grafted. Such heterostructures entail nanometer‐sized coherent interfaces that accommodate large geometric distortions and cooperatively stabilize the energetically unfavorable Jahn–Teller active electronic states of high‐valence interfacial Ni sites. The presence of high‐valence interfacial Ni sites and associated collective Jahn–Teller distortions greatly facilitate the Ni oxidation cycling through Ni3+/Ni4+ transition and stabilizes the *O key intermediate at Ni‐Se dual sites, both of which synergistically lowers down the overall OER overpotential.
- Subjects
ELECTROCATALYSIS; OXYGEN evolution reactions; TRANSITION metals; LAMINATED metals; METAL-organic frameworks; HETEROSTRUCTURES
- Publication
Advanced Functional Materials, 2023, Vol 33, Issue 32, p1
- ISSN
1616-301X
- Publication type
Article
- DOI
10.1002/adfm.202301490