药物化合物氟西汀在水中的理论见解：在自由基直接光解和间接光解中的作用。

Theoretical insights of the pharmaceutical compound fluoxetine in water: Role in direct photolysis and indirect photolysis by free radicals.

机构信息

School of Environmental Science and Engineering, Collaborative Innovation Center of Atmospheric Environment and Equipment Technology, Jiangsu Key Laboratory of Atmospheric Environment Monitoring and Pollution Control, Nanjing University of Information Science and Technology, Nanjing 210044, China.

出版信息

J Environ Sci (China). 2024 Aug;142:269-278. doi: 10.1016/j.jes.2023.07.022. Epub 2023 Jul 25.

DOI:10.1016/j.jes.2023.07.022

PMID:38527892

Abstract

The frequent detection of pharmaceutical compounds in the environment has led to a growing awareness, which may pose a major threat to the aquatic environment. In this study, photodegradation (direct and indirect photolysis) of two different dissociation states of fluoxetine (FLU) was investigated in water, mainly including the determination of photolytic transition states and products, and the mechanisms of indirect photodegradation with ·OH, CO and NO*. The main direct photolysis pathways are defluorination and C-C bond cleavage. In addition, the indirect photodegradation of FLU in water is mainly through the reactions with ·OH and NO*, and the photodegradation reaction with CO is relatively difficult to occur in the water environment. Our results provide a theoretical basis for understanding the phototransformation process of FLU in the water environment and assessing its potential risk.

摘要

环境中频繁检测到药物化合物，这引起了人们越来越多的关注，这可能对水生环境构成重大威胁。在这项研究中，研究了两种不同离解状态的氟西汀（FLU）在水中的光降解（直接和间接光解），主要包括光解过渡态和产物的测定，以及与·OH、CO 和 NO的间接光降解机制。主要的直接光解途径是脱氟和 C-C 键断裂。此外，FLU 在水中的间接光降解主要是通过与·OH 和 NO的反应，而与 CO 的光降解反应在水环境中较难发生。我们的结果为理解 FLU 在水环境中的光转化过程及其潜在风险提供了理论依据。

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药物化合物氟西汀在水中的理论见解：在自由基直接光解和间接光解中的作用。

Theoretical insights of the pharmaceutical compound fluoxetine in water: Role in direct photolysis and indirect photolysis by free radicals.

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