利用高效三维铜金属有机框架深入了解四环素的降解和增强 Persulfate 降解的机理

IF 3 4区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Water, Air, & Soil Pollution Pub Date : 2024-04-29 DOI:10.1007/s11270-024-07097-2

Rui Zhou, Congyang Zou, Yong Wang, Zhuyou Zhou, Menghe Liu, Yufeng Ji

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引用次数: 0

摘要

通过水热法制备了一种三维铜基金属有机框架（Cu-MOFs），作为活化过硫酸盐降解四环素的催化剂。研究了催化剂用量、pH 值和过硫酸盐浓度等不同条件下四环素的降解效率。研究并详细讨论了这些因素对降解效率的影响。在合适的条件下，Cu-MOFs/PS 催化体系可以降解 96% 的 TC。淬灭实验表明，TC 降解存在自由基和非自由基两种途径，其中氧的单线置换起主要作用。通过循环实验探索了材料结构的稳定性。通过分析中间产物，研究了 TC 的降解途径。此外，还使用毒性分析软件评估了这些中间产物的毒性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Insights into the Degradation and Mechanism of the Enhanced Persulfate Degradation of Tetracycline using an Efficient 3D Copper Metal–Organic Frameworks

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Insights into the Degradation and Mechanism of the Enhanced Persulfate Degradation of Tetracycline using an Efficient 3D Copper Metal–Organic Frameworks

One 3D Cu-based metal–organic frameworks (Cu-MOFs) was prepared by hydrothermal method as a catalyst for activating persulfate to degrade tetracycline. The degradation efficiency of TC was investigated under various conditions including catalyst dosage, pH, and persulfate concentration. The effects of these factors on the degradation efficiency were examined and discussed in detail. Cu-MOFs/PS catalytic systems can degrade 96% of TC under suitable conditions. The quenching experiments showed that there are both free radical and non-free radical pathways in TC degradation, with singlet-line substitution of oxygen playing a major role. The stability of the material structure was explored through cyclic experiments. The degradation pathway of TC was investigated through the analysis of intermediate products. Additionally, the toxicity of these intermediate products was evaluated using toxicity analysis software.

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来源期刊

Water, Air, & Soil Pollution 环境科学-环境科学

CiteScore

4.50

自引率

6.90%

发文量

448

审稿时长

2.6 months

期刊介绍： Water, Air, & Soil Pollution is an international, interdisciplinary journal on all aspects of pollution and solutions to pollution in the biosphere. This includes chemical, physical and biological processes affecting flora, fauna, water, air and soil in relation to environmental pollution. Because of its scope, the subject areas are diverse and include all aspects of pollution sources, transport, deposition, accumulation, acid precipitation, atmospheric pollution, metals, aquatic pollution including marine pollution and ground water, waste water, pesticides, soil pollution, sewage, sediment pollution, forestry pollution, effects of pollutants on humans, vegetation, fish, aquatic species, micro-organisms, and animals, environmental and molecular toxicology applied to pollution research, biosensors, global and climate change, ecological implications of pollution and pollution models. Water, Air, & Soil Pollution also publishes manuscripts on novel methods used in the study of environmental pollutants, environmental toxicology, environmental biology, novel environmental engineering related to pollution, biodiversity as influenced by pollution, novel environmental biotechnology as applied to pollution (e.g. bioremediation), environmental modelling and biorestoration of polluted environments. Articles should not be submitted that are of local interest only and do not advance international knowledge in environmental pollution and solutions to pollution. Articles that simply replicate known knowledge or techniques while researching a local pollution problem will normally be rejected without review. Submitted articles must have up-to-date references, employ the correct experimental replication and statistical analysis, where needed and contain a significant contribution to new knowledge. The publishing and editorial team sincerely appreciate your cooperation. Water, Air, & Soil Pollution publishes research papers; review articles; mini-reviews; and book reviews.