基于活性氧物种和分子结构的有机污染物选择性氧化：降解行为与机制分析。

Selective oxidation of organic pollutants based on reactive oxygen species and the molecular structure: Degradation behavior and mechanism analysis.

机构信息

Department of Environmental Engineering, College of Ecology and the Environment, Nanjing Forestry University, Nanjing 210037, China; Jiangsu Key Laboratory of Chemical Pollution Control and Resources Reuse, School of Environmental and Biological Engineering, Nanjing University of Science and Technology, Nanjing 210094, China; State Key Laboratory of Pollution Control and Resource Reuse, School of the Environment, Nanjing University, Nanjing 210023, China.

Department of Environmental Engineering, College of Ecology and the Environment, Nanjing Forestry University, Nanjing 210037, China.

出版信息

Water Res. 2023 Nov 1;246:120697. doi: 10.1016/j.watres.2023.120697. Epub 2023 Oct 4.

DOI:10.1016/j.watres.2023.120697

PMID:37837899

Abstract

The selective and rapid elimination of refractory organic pollutants from surface water is significant. However, the relationship of between reactive oxygen species (ROSs) and diversified pollutants molecular structures still needs to be further clarified. Here, we utilize polydopamine (PDA)-assisted coating strategy to prepare hollow 2D carbon nanosheet (ZPL-HCNS) and 2D CoO nanosheet (ZPL-CoO) by thermolysis of PDA coated ZIF-L (ZIF-L@PDA) precursor under different gas atmosphere, which realizes the controlled generation of radicals and non-radicals. Organic pollutants including bisphenols, sulfonamides, quinolones, tetracyclines, and azo dyes are applied to assess the catalytic performance. Results show that dyes containing azo structure are more likely to be degraded by radical process, which is due to that the energy (ΔE) requirements to break the azo bond is higher than energy released from singlet oxygen to oxygen molecule and lower than that of sulfate radical to sulfate. Frontier molecular orbital theory HOMO-LUMO and Fukui function expounded the possible selectivity mechanism. In addition, the degradation pathway and biotoxicity test are carried out. This work provides a reference to illustrate the selective degradation for ROSs and molecular structure of pollutants.

摘要

从地表水中选择性且快速地去除难处理的有机污染物具有重要意义。然而，活性氧（ROS）与多样化污染物分子结构之间的关系仍需要进一步阐明。在这里，我们利用聚多巴胺（PDA）辅助涂层策略，通过在不同气体氛围下热解 PDA 包覆的 ZIF-L（ZIF-L@PDA）前驱体制备空心二维碳纳米片（ZPL-HCNS）和二维 CoO 纳米片（ZPL-CoO），实现了自由基和非自由基的可控生成。我们应用包括双酚类、磺胺类、喹诺酮类、四环素类和偶氮染料在内的有机污染物来评估其催化性能。结果表明，含有偶氮结构的染料更有可能通过自由基过程降解，这是因为断裂偶氮键所需的能量（ΔE）高于单重态氧向氧分子释放的能量，低于硫酸根自由基向硫酸盐的能量。前沿分子轨道理论 HOMO-LUMO 和 Fukui 函数阐述了可能的选择性机制。此外，我们还进行了降解途径和生物毒性测试。这项工作为阐明 ROS 和污染物分子结构的选择性降解提供了参考。

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基于活性氧物种和分子结构的有机污染物选择性氧化：降解行为与机制分析。

Selective oxidation of organic pollutants based on reactive oxygen species and the molecular structure: Degradation behavior and mechanism analysis.

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