基于密度泛函理论和实验研究的过氧单硫酸盐体系中 OH 引发的阿司匹林转化和水解。

OH-initiated transformation and hydrolysis of aspirin in AOPs system: DFT and experimental studies.

机构信息

Shandong Key Laboratory of Water Pollution Control and Resource Reuse, School of Environmental Science and Engineering, Shandong University, Jinan 250100, PR China.

Environment Research Institute, Shandong University, Jinan 250100, PR China.

出版信息

Sci Total Environ. 2017 Aug 15;592:33-40. doi: 10.1016/j.scitotenv.2017.03.041. Epub 2017 Mar 12.

DOI:10.1016/j.scitotenv.2017.03.041

PMID:28297635

Abstract

Advanced oxidation processes (AOPs) are widely used in wastewater treatment of pharmaceutical and personal care products (PPCPs). In this work, the OH-initiated transformation as well as the hydrolysis of a typical PPCPs, aspirin, was investigated using density functional theory (DFT) calculations and laboratory experiments. For DFT calculations, the frontier electron densities and bond dissociation energies were analyzed. Profiles of the potential energy surface were constructed, and all the possible pathways were discussed. Additionally, rate constants for each pathway were calculated with transition state theory (TST) method. UV/HO experiments of aspirin were performed and degradation intermediates were identified by UPLC-MS-MS analysis. Different findings from previous experimental works were reported that the H-abstraction pathways at methyl position were dominated and OH-addition pathways on benzene ring were also favored. Meantime, hydroxyl ASA was confirmed as the main stable intermediate. Moreover, it was the first time to use DFT method to investigate the hydrolysis mechanisms of organic ester compound.

摘要

高级氧化工艺（AOPs）广泛应用于药物和个人护理产品（PPCPs）废水处理中。在这项工作中，使用密度泛函理论（DFT）计算和实验室实验研究了典型 PPCPs 阿司匹林的 OH 引发转化和水解。对于 DFT 计算，分析了前沿电子密度和键离解能。构建了势能面的轮廓，并讨论了所有可能的途径。此外，还使用过渡态理论（TST）方法计算了每条途径的速率常数。通过超高效液相色谱-串联质谱分析（UPLC-MS-MS）对阿司匹林的 UV/HO 实验进行了研究，并鉴定了降解中间产物。报告了与先前实验工作不同的发现，即甲基位置的 H 抽提途径占主导地位，苯环上的 OH 加成途径也很有利。同时，确认羟基阿司匹林是主要的稳定中间产物。此外，这是首次使用 DFT 方法研究有机酯化合物的水解机制。

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基于密度泛函理论和实验研究的过氧单硫酸盐体系中 OH 引发的阿司匹林转化和水解。

OH-initiated transformation and hydrolysis of aspirin in AOPs system: DFT and experimental studies.

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