大气压等离子体降解环境毒素的机理研究

张远涛; 柴兆男; 孙滢; 刘亚迪; 王晓龙; 赵彤

doi:10.13336/j.1003-6520.hve.20241922

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大气压等离子体降解环境毒素的机理研究

低温等离子体杀菌、消毒应用及作用机制专题 | 更新时间：2026-01-09

- 大气压等离子体降解环境毒素的机理研究
- Numerical study on the Degradation of Environmental Toxins Induced by Cold Atmospheric Plasmas
- 高电压技术 2025年51卷第6期页码：2850-2871
- 作者机构：
  
  山东大学电气工程学院,济南,250014
- 作者简介：
- 基金信息：
  
  国家自然科学基金(12375201);国家自然科学基金(52177224);国家自然科学基金(52477146);国家自然科学基金(52377151)
- DOI：10.13336/j.1003-6520.hve.20241922
  中图分类号：
- 纸质出版：2025
- 稿件说明：
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张远涛, 柴兆男, 孙滢, 等. 大气压等离子体降解环境毒素的机理研究[J]. 高电压技术, 2025,51(6):2850-2871.

ZHANG Yuantao, CHAI Zhaonan, SUN Ying, et al. Numerical study on the Degradation of Environmental Toxins Induced by Cold Atmospheric Plasmas[J]. 2025, 51(6): 2850-2871.
张远涛, 柴兆男, 孙滢, 等. 大气压等离子体降解环境毒素的机理研究[J]. 高电压技术, 2025,51(6):2850-2871. DOI： 10.13336/j.1003-6520.hve.20241922.

ZHANG Yuantao, CHAI Zhaonan, SUN Ying, et al. Numerical study on the Degradation of Environmental Toxins Induced by Cold Atmospheric Plasmas[J]. 2025, 51(6): 2850-2871. DOI： 10.13336/j.1003-6520.hve.20241922.

摘要

随着社会持续发展和人类需求提升，环境毒素污染(包括抗生素、药物和真菌毒素等有机污染)问题日益凸显，对公众健康与经济发展构成重大挑战，是“健康中国”建设中必须要关注的问题。大气压冷等离子体(cold atmospheric plasma，CAP)作为一种新兴的非热处理技术，为环境毒素去除提供了新途径、新理念与新方法。CAP通过产生大量活性粒子，高效、环保且非选择性地与环境毒素作用，展现出良好降解效果。然而，CAP中各活性粒子与环境毒素相互作用的深层机制尚待阐明，这限制了等离子体降解技术的进一步发展与产业化应用。为此基于反应分子动力学模拟方法，研究并总结了大气压冷等离子体产生的4种主要活性氧粒子(reactive oxygen species，ROS)，与14种环境毒素(四环素类4种、真菌毒素类5种及头孢菌素类1—4代各1种)相互作用的关键反应及最终产物，全面揭示了ROS通过脱氢反应、加成反应、氧化反应、断键反应和开环反应等破坏关键活性位点的机制，并通过计算数据与实验结果相互验证，阐明了等离子体降解环境毒素所可能发生的共性反应与一般性规律，从而使预测等离子体与其他类似环境毒素的降解规律和降解产物成为可能，为等离子体降解环境毒素提供了理论基础，并将推动其工业化应用的发展。

Abstract

With the continuous development of society and the escalating human demands

the issue of environmental toxic pollution (including organic pollutants such as antibiotics

pharmaceuticals

and mycotoxins) has become increasingly prominent

posing significant challenges to public health and economic development. It is a crucial concern in the construction of a "Healthy China". Cold atmospheric plasma (CAP)

as an emerging non-thermal treatment technology

offers a new avenue for environmental toxin removal. CAP efficiently

environmentally

and non-selectively interacts with environmental toxins by generating a plethora of reactive species

demonstrating promising degradation effects. However

the underlying mechanisms of the interactions between various reactive species in CAP and environmental toxins remain elusive

hindering the further development and industrial application of plasma technology. This paper focuses on reactive oxygen species (ROS)

which play a pivotal role in the process of environmental toxin treatment using CAP. Based on reactive molecular dynamics simulations

this paper explores and summarizes the interactions between ROS and key active (toxic) sites of various toxins at the atomic level. By simulating the interactions of four ROS (oxygen atoms

hydroxyl radicals

hydrogen peroxide

and ozone) with tetracycline antibiotics

cephalosporin antibiotics

carbamazepine drugs

as well as emetic toxin and aflatoxin B1

the mechanisms through which ROS disrupt key active sites via dehydrogenation

addition reactions

oxidation reactions

bond-breaking reactions

and ring-opening reactions are revealed. The simulation results are validated by experimental data

further analyzing the degradation patterns of various active sites and the resulting products. The common reactions and general rules that may occur in the degradation of environmental toxins induced by CAP are expounded in this paper

which makes it possible to predict the degradation processes and degradation products of the interactions of CAP and other similar environmental toxins

providing a theoretical basis for the degradation of environmental toxins by CAP

thus the industrial development of degradation of environmental toxins by CAP can be effectively promoted.

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