水环境下羟自由基致布洛芬分子损伤的机理

姜春旭; 王佐成; 高峰; 佟华; 杨晓翠; 丛建民

doi:10.13471/j.cnki.acta.snus.2019.05.015

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水环境下羟自由基致布洛芬分子损伤的机理

论文 | 更新时间：2023-12-11

- 水环境下羟自由基致布洛芬分子损伤的机理
- Mechanism of ibuprofen molecule damage induced by hydroxyl radical in water environment
- 中山大学学报(自然科学版)(中英文) 2019年58卷第5期页码：119-127
- 作者机构：
  
  1. 白城师范学院理论计算中心,吉林,白城,137000
  2. 
  3. 白城师范学院传媒学院,吉林,白城,137000
- 作者简介：
- 基金信息：
- DOI：10.13471/j.cnki.acta.snus.2019.05.015
  中图分类号：
- 纸质出版日期：2019，
  
  网络出版日期：2019-9-25，
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姜春旭, 王佐成, 高峰, 等. 水环境下羟自由基致布洛芬分子损伤的机理[J]. 中山大学学报(自然科学版)(中英文), 2019,58(5):119-127.

JIANG Chunxv, WANG Zuocheng, GAO Feng, et al. Mechanism of ibuprofen molecule damage induced by hydroxyl radical in water environment[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2019,58(5):119-127.
姜春旭, 王佐成, 高峰, 等. 水环境下羟自由基致布洛芬分子损伤的机理[J]. 中山大学学报(自然科学版)(中英文), 2019,58(5):119-127. DOI： 10.13471/j.cnki.acta.snus.2019.05.015.

JIANG Chunxv, WANG Zuocheng, GAO Feng, et al. Mechanism of ibuprofen molecule damage induced by hydroxyl radical in water environment[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2019,58(5):119-127. DOI： 10.13471/j.cnki.acta.snus.2019.05.015.

摘要

采用基于密度泛函理论的B3LYP方法和从头算的MP2方法，结合自洽反应场理论的SMD模型方法，研究了水汽环境下羟自由基致2种构象的布洛芬分子损伤及水溶剂化效应。研究发现：羟自由基致布洛芬损伤有羟自由基（水分子簇）抽α氢和羟自由基加成到苯环两种机理。势能面计算表明：对于布洛芬分子构象1，水分子辅助羟自由基抽α氢的反应通道具有优势，抽氢反应能垒是34.68 kJ/mol；对于布洛芬分子构象2，羟自由基抽α氢的反应通道具有优势，抽氢反应能垒是34.81 kJ/mol ；羟自由基加成到苯环的能垒大约是26.00 kJ/mol ；损伤的布洛芬分子难以修复。水溶剂化效应对羟自由基（水分子簇）抽α氢和羟自由基加成到苯环致布洛芬损伤反应的影响很小。

Abstract

The studyinvestigated the damage of ibuprofen molecules with two conformations induced by hydroxyl radical and the effect of water solvation in water vapor environment. The methods were density functional theory using the B3LYP functional

ab initio MP2 and Slovation Model Density (SMD) model method based on self consistent reaction field theory. The study showed that ibuprofen molecule damage had two mechanisms: α-H abstraction of hydroxyl radicals(water clusters) and hydroxyl radicals addition to benzene ring. The calculation of potential energy surface showed that

for ibuprofen conformation-1

the reaction channel of αH abstraction of hydroxyl radicals assisted by water molecular had an advantage

where the energy barrier of α-H abstraction was 34.68 kJ·mol

-1

. For ibuprofen conformation-2

the reaction channel of

α-

H abstraction of hydroxyl radicals had an advantage

where the energy barrier of α-H abstraction was 34.81 kJ·mol

-1

. In addition

the energy barrier of hydroxyl radicals addition to benzene ring was about 26.00 kJ·mol

-1



and damaged ibuprofen molecules were difficult to repair. The effect of water solvation had little effect on the ibuprofen molecules damage induced by αH abstraction of hydroxyl radicals(water clusters) and hydroxyl radicals addition to benzene ring.

关键词

布洛芬损伤羟自由基过渡态能垒

Keywords

ibuprofendamagehydroxyl radicalstransient stateenergy barrier

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