Single-atom catalysts activate persulfate to degrade emerging organic contaminants in aqueous environments

Water Science & Technology Pub Date : 2024-07-12 DOI:10.2166/wst.2024.236

Zixun Qin, Zhonglei Zhang, Ji Li, Jin Liu, Jinsheng Wang, Xiaoguo Chen, Yangyang Wang, Lei Wang

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Abstract

Single-atom catalysts (SACs) exhibit outstanding catalytic activity due to their highly dispersed metal centers. Activating persulfates (PS) with SACs can generate various reactive oxygen species (ROS) to efficiently degrade emerging organic contaminants (EOCs) in aqueous environments, offering unique advantages such as high reaction rates and excellent stability. This technique has been extensively researched and holds enormous potential applications. In this paper, we comprehensively elaborated on the synthesis methods of SACs and their limitations, and factors influencing the catalytic performance of SACs, including metal center characteristics, coordination environment, and types of substrates. We also analyzed practical considerations for application. Subsequently, we discussed the mechanism of SACs activating PS for EOCs degradation, encompassing adsorption processes, radical pathways, and non-radical pathways. Finally, we provide prospects and outline our vision for future research, aiming to guide advancements in applying this technique.

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单原子催化剂激活过硫酸盐，降解水环境中新出现的有机污染物

单原子催化剂（SAC）因其高度分散的金属中心而具有出色的催化活性。用 SACs 活化过硫酸盐（PS）可产生各种活性氧（ROS），从而在水环境中高效降解新出现的有机污染物（EOC），具有反应速度快、稳定性好等独特优势。该技术已得到广泛研究，并具有巨大的应用潜力。本文全面阐述了 SAC 的合成方法及其局限性，以及影响 SAC 催化性能的因素，包括金属中心特性、配位环境和底物类型。我们还分析了实际应用中的注意事项。随后，我们讨论了 SACs 激活 PS 降解 EOCs 的机理，包括吸附过程、自由基途径和非自由基途径。最后，我们对未来的研究进行了展望和展望，旨在为这项技术的应用提供指导。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water Science & Technology

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