Single-atom photo-catalysts: Synthesis, characterization, and applications

IF 9.9 2区材料科学 Q1 Engineering

Nano Materials Science Pub Date : 2024-06-01 DOI:10.1016/j.nanoms.2023.11.001

Siqi Li , Ziwang Kan , He Wang , Jiaxiao Bai , Yunyi Liu , Song Liu , Yingjie Wu

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Abstract

Single-atom catalysts (SACs) are gaining popularity in catalytic reactions due to their nearly 100 % atomic utilization and defined active sites, which provide great convenience for studying the catalytic mechanism of catalysts. However, SACs still present challenges such as complex formation processes, low loading and easy agglomeration of catalysts. Herein, we systematically discuss the synthesis methods for SACs, including co-precipitation, impregnation, atomic layer deposition, pyrolysis and Anti-Ostwald ripening etc. Various techniques for characterizing single-atom catalysts (SACs) are described in detail. The utilization of individual atoms in various photocatalytic reactions and their mechanisms of action in different reactions are explained. The purpose of this review is to introduce single-atom synthesis methods, characterization techniques, specific catalytic action and their applications in the direction of photocatalysis, and to provide a reference for the industrialization of photocatalytic single-atoms, which is currently impossible, in the hope of promoting further development of photocatalytic single-atoms.

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单原子光催化剂:合成、表征及应用

单原子催化剂由于其接近100%的原子利用率和明确的活性位点，为研究催化剂的催化机理提供了极大的便利，在催化反应中得到了广泛的应用。然而，活性炭仍然面临着复杂的形成过程、低负载和易团聚催化剂等挑战。本文系统地讨论了SACs的合成方法，包括共沉淀法、浸渍法、原子层沉积法、热解法和反奥斯特瓦尔德成熟法等。详细介绍了表征单原子催化剂(SACs)的各种技术。阐述了单个原子在各种光催化反应中的利用及其在不同反应中的作用机理。本文综述的目的是介绍单原子合成方法、表征技术、特异催化作用及其在光催化方向上的应用，为目前无法实现的光催化单原子产业化提供参考，以期促进光催化单原子的进一步发展。

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来源期刊

Nano Materials Science Engineering-Mechanics of Materials

CiteScore

20.90

自引率

3.00%

发文量

294

审稿时长

9 weeks

期刊介绍： Nano Materials Science (NMS) is an international and interdisciplinary, open access, scholarly journal. NMS publishes peer-reviewed original articles and reviews on nanoscale material science and nanometer devices, with topics encompassing preparation and processing; high-throughput characterization; material performance evaluation and application of material characteristics such as the microstructure and properties of one-dimensional, two-dimensional, and three-dimensional nanostructured and nanofunctional materials; design, preparation, and processing techniques; and performance evaluation technology and nanometer device applications.

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