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π-堆积相互作用在从活化酚类到短寿命N-氧基自由基的氢原子转移反应中的重要性。

Importance of π-stacking interactions in the hydrogen atom transfer reactions from activated phenols to short-lived N-oxyl radicals.

作者信息

Mazzonna Marco, Bietti Massimo, DiLabio Gino A, Lanzalunga Osvaldo, Salamone Michela

机构信息

Dipartimento di Chimica and Istituto CNR di Metodologie Chimiche (IMC-CNR), Sezione Meccanismi di Reazione, c/o Dipartimento di Chimica, Sapienza Università di Roma , P.le A. Moro, 5, I-00185 Rome, Italy.

出版信息

J Org Chem. 2014 Jun 6;79(11):5209-18. doi: 10.1021/jo500789v. Epub 2014 May 9.

DOI:10.1021/jo500789v
PMID:24784172
Abstract

A kinetic study of the hydrogen atom transfer from activated phenols (2,6-dimethyl- and 2,6-di-tert-butyl-4-substituted phenols, 2,2,5,7,8-pentamethylchroman-6-ol, caffeic acid, and (+)-cathechin) to a series of N-oxyl radical (4-substituted phthalimide-N-oxyl radicals (4-X-PINO), 6-substituted benzotriazole-N-oxyl radicals (6-Y-BTNO), 3-quinazolin-4-one-N-oxyl radical (QONO), and 3-benzotriazin-4-one-N-oxyl radical (BONO)), was carried out by laser flash photolysis in CH3CN. A significant effect of the N-oxyl radical structure on the hydrogen transfer rate constants (kH) was observed with kH values that monotonically increase with increasing NO-H bond dissociation energy (BDENO-H) of the N-hydroxylamines. The analysis of the kinetic data coupled to the results of theoretical calculations indicates that these reactions proceed by a hydrogen atom transfer (HAT) mechanism where the N-oxyl radical and the phenolic aromatic rings adopt a π-stacked arrangement. Theoretical calculations also showed pronounced structural effects of the N-oxyl radicals on the charge transfer occurring in the π-stacked conformation. Comparison of the kH values measured in this study with those previously reported for hydrogen atom transfer to the cumylperoxyl radical indicates that 6-CH3-BTNO is the best N-oxyl radical to be used as a model for evaluating the radical scavenging ability of phenolic antioxidants.

摘要

通过在乙腈中进行激光闪光光解,对活化酚(2,6 - 二甲基 - 和2,6 - 二叔丁基 - 4 - 取代酚、2,2,5,7,8 - 五甲基色满 - 6 - 醇、咖啡酸和(+)-儿茶素)向一系列氮氧自由基(4 - 取代邻苯二甲酰亚胺 - 氮氧自由基(4 - X - PINO)、6 - 取代苯并三唑 - 氮氧自由基(6 - Y - BTNO)、3 - 喹唑啉 - 4 - 酮 - 氮氧自由基(QONO)和3 - 苯并三嗪 - 4 - 酮 - 氮氧自由基(BONO))的氢原子转移进行了动力学研究。观察到氮氧自由基结构对氢转移速率常数(kH)有显著影响,kH值随N - 羟基胺的NO - H键解离能(BDENO - H)增加而单调增加。结合理论计算结果对动力学数据的分析表明,这些反应通过氢原子转移(HAT)机制进行,其中氮氧自由基和酚类芳香环采用π - 堆积排列。理论计算还表明氮氧自由基对π - 堆积构象中发生的电荷转移有明显的结构效应。将本研究中测得的kH值与先前报道的氢原子转移至枯基过氧自由基的kH值进行比较,表明6 - CH3 - BTNO是用作评估酚类抗氧化剂自由基清除能力模型的最佳氮氧自由基。

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