将高价铱单原子位点限制在氢氧化氧镍上以实现高效析氧反应

Confining High-Valence Iridium Single Sites onto Nickel Oxyhydroxide for Robust Oxygen Evolution.

作者信息

He Qun, Qiao Sicong, Zhou Quan, Zhou Yuzhu, Shou Hongwei, Zhang Pengjun, Xu Wenjie, Liu Daobin, Chen Shuangming, Wu Xiaojun, Song Li

机构信息

National Synchrotron Radiation Laboratory, CAS Center for Excellence in Nanoscience, University of Science and Technology of China, Hefei 230029, P. R. China.

School of Chemistry and Materials Sciences, Collaborative Innovation of Center of Chemistry for Energy Materials (iChEM), University of Science and Technology of China, Hefei 230026, P. R. China.

出版信息

Nano Lett. 2022 May 11;22(9):3832-3839. doi: 10.1021/acs.nanolett.2c01124. Epub 2022 Apr 22.

DOI:10.1021/acs.nanolett.2c01124

PMID:35451305

Abstract

Enhancing activity and stability of iridium- (Ir-) based oxygen evolution reaction (OER) catalysts is of great significance in practice. Here, we report a vacancy-rich nickel hydroxide stabilized Ir single-atom catalyst (Ir-Ni(OH)), which achieves long-term OER stability over 260 h and much higher mass activity than commercial IrO in alkaline media. In situ X-ray absorption spectroscopy analysis certifies the obvious structure reconstruction of catalyst in OER. As a result, an active structure in which high-valence and peripheral oxygen ligands-rich Ir sites are confined onto the nickel oxyhydroxide surface is formed. In addition, the precise introduction of atomized Ir not only surmounts the large-range dissolution and agglomeration of Ir but also suppresses the dissolution of substrate in OER. Theoretical calculations further account for the activation of Ir single atoms and the promotion of oxygen generation by high-valence Ir, and they reveal that the deprotonation process of adsorbed OH is rate-determining.

摘要

提高铱（Ir）基析氧反应（OER）催化剂的活性和稳定性在实际应用中具有重要意义。在此，我们报道了一种富含空位的氢氧化镍稳定的Ir单原子催化剂（Ir-Ni(OH)），该催化剂在碱性介质中实现了超过260小时的长期OER稳定性，且质量活性比商业IrO高得多。原位X射线吸收光谱分析证实了催化剂在OER过程中明显的结构重构。结果，形成了一种活性结构，其中高价且富含周边氧配体的Ir位点被限制在氢氧化氧镍表面。此外，精确引入原子化的Ir不仅克服了Ir的大范围溶解和团聚，还抑制了OER过程中底物的溶解。理论计算进一步解释了Ir单原子的活化以及高价Ir对析氧的促进作用，并揭示吸附的OH的去质子化过程是速率决定步骤。

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将高价铱单原子位点限制在氢氧化氧镍上以实现高效析氧反应

Confining High-Valence Iridium Single Sites onto Nickel Oxyhydroxide for Robust Oxygen Evolution.

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