Progress on Noble-Metal-Free Organic–Inorganic Hybrids for Electrochemical Water Oxidation

Zheng Tan, Lihua Zhang, Tong Wu, Yinbo Zhan, Bowei Zhou, Yilin Dong, Xia Long
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Abstract

Emerging as a new class of advanced functional materials with hierarchical architectures and redox characters, organic–inorganic hybrid materials (OIHs) have been well developed and widely applied in various energy conversion reactions recently. In this review, we focus on the applications and structure–performance relationship of OIHs for electrochemical water oxidation. The general principles of water oxidation will be presented first, followed by the progresses on the applications of OIHs that are classified as metal organic frameworks (MOFs) and their derivates, covalent organic framework (COF)-based hybrids and other OIHs. The roles of organic counterparts on catalytic active centers will be fully discussed and highlighted with typical examples. Finally, the challenges and perspectives assessing this promising hybrid material as an electrocatalyst will be provided.
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无贵金属有机-无机杂化物电化学水氧化研究进展
有机-无机杂化材料作为一类具有层次结构和氧化还原特性的新型高级功能材料,近年来在各种能量转换反应中得到了广泛的发展和应用。本文综述了OIHs在电化学水氧化中的应用及其结构性能关系。本文首先介绍了水氧化的一般原理,然后介绍了ohis的应用进展,并将其分为金属有机骨架(mof)及其衍生物、共价有机骨架(COF)基杂化物和其他ohis。有机对应物对催化活性中心的作用将通过典型的例子进行充分的讨论和强调。最后,提出了评估这种有前途的杂化材料作为电催化剂的挑战和观点。
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