The combination of non-thermal plasma (NTP) and catalyst characterized by high energy efficiency, enhanced volatile organic compounds (VOCs) removal efficiency, high product selectivity, and low production of unwanted and/or toxic by-products possesses a great promise for the abatement of VOCs. This work reviews the state of knowledge regarding Mn-based catalysts for VOCs abatement in the post-plasma-catalytic (PPC) system. First, the development and the performance of different Mn-based catalysts such as pure manganese oxide, mixed manganese oxide-based catalysts, and supported Mn-based catalysts in terms of VOCs abatement and O₃ decomposition are summarized. Then, the mechanism of the VOCs decomposition in the NTP and PPC system is discussed. Finally, the modeling and simulation of VOCs abatement in the NTP and PPC system are overviewed. This review aims at providing a reference guide for the development and optimization of VOCs abatement in the PPC system using Mn-based catalysts.

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中文翻译：

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用于后非热等离子体催化 VOC 减排的锰基催化剂：实验、模拟和建模综述

非热等离子体 (NTP) 和催化剂的组合具有高能效、增强的挥发性有机化合物 (VOC) 去除效率、高产品选择性和低产生不需要的和/或有毒副产品的特点，为VOCs 的减排。这项工作回顾了有关用于后等离子体催化 (PPC) 系统中 VOC 减排的锰基催化剂的知识状态。一、纯锰氧化物、混合锰氧化物基催化剂、负载型锰基催化剂等不同锰基催化剂在VOCs减排和O ₃方面的发展和性能分解总结。然后，讨论了NTP和PPC系统中VOCs分解的机制。最后，概述了 NTP 和 PPC 系统中 VOCs 减排的建模和模拟。本综述旨在为使用锰基催化剂的 PPC 系统中 VOCs 减排的开发和优化提供参考指南。

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