Catalytic applications of single-atom metal-anchored hydroxides: Recent advances and perspective

Xinxuan Duan , Tianshui Li , Xin Jiang , Xun Liu , Liping Xin , Hongbin Yang , Yun Kuang , Xiaoming Sun
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引用次数: 4

Abstract

Developing isolated single atomic noble metal catalysts is one of the most effective methods to maximize noble metal atom utilization efficiency and enhance catalytic performances. Layered double hydroxides (LDHs) are two-dimensional nanoarchitectures in which M3+ and M2+ sites are atomically isolated due to static repulsions, providing special anchoring sites for single noble metal atoms and enabling the tuning of catalytic activity. Herein, a comprehensive review of the advances in LDHs supported single-atom catalysts (M/LDH SACs) is presented, focusing on the synthetic strategies, structure characterization, and application of M/LDH SACs in energy devices. Strong electronic coupling between single atomic noble metal atoms and corresponding anchoring sites of LDHs determines not only the catalytic activity of M/LDH SACs but also the stability during catalytic reactions. Furthermore, a perspective is proposed to highlight the challenges and opportunities for understanding the reaction mechanism and development of highly efficient M/LDH SACs.

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单原子金属锚定氢氧化物的催化应用:最新进展与展望
开发分离的单原子贵金属催化剂是实现贵金属原子利用率最大化、提高催化性能的有效途径之一。层状双氢氧化物(LDHs)是一种二维纳米结构,其中M3+和M2+位点由于静态排斥而原子隔离,为单个贵金属原子提供特殊的锚定位点,并使催化活性得以调节。本文对LDH负载单原子催化剂(M/LDH SACs)的研究进展进行了综述,重点介绍了M/LDH SACs的合成策略、结构表征以及在能源器件中的应用。单原子贵金属原子与LDH锚定位点之间的强电子耦合不仅决定了M/LDH SACs的催化活性,还决定了其催化反应的稳定性。此外,本文还提出了一个观点,强调了了解高效M/LDH SACs的反应机制和开发的挑战和机遇。
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来源期刊
材料导报:能源(英文)
材料导报:能源(英文) Renewable Energy, Sustainability and the Environment, Nanotechnology
CiteScore
13.00
自引率
0.00%
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审稿时长
50 days
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