Chloroform as a hydrogen atom donor in barton reductive decarboxylation reactions

Ho J.; Zheng J.; Meana-Pa?eda R.; Truhlar D.G.; Ko E.J.; Savage G.P.; Williams C.M.; Coote M.L.; Tsanaktsidis J.

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Chloroform as a hydrogen atom donor in barton reductive decarboxylation reactions

机译：三氯甲烷在巴顿还原性脱羧反应中作为氢原子供体

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The utility of chloroform as both a solvent and a hydrogen atom donor in Barton reductive decarboxylation of a range of carboxylic acids was recently demonstrated (Ko, E. J. et al. Org. Lett. 2011, 13, 1944). In the present work, a combination of electronic structure calculations, direct dynamics calculations, and experimental studies was carried out to investigate how chloroform acts as a hydrogen atom donor in Barton reductive decarboxylations and to determine the scope of this process. The results from this study show that hydrogen atom transfer from chloroform occurs directly under kinetic control and is aided by a combination of polar effects and quantum mechanical tunneling. Chloroform acts as an effective hydrogen atom donor for primary, secondary, and tertiary alkyl radicals, although significant chlorination was also observed with unstrained tertiary carboxylic acids.

机译：最近证明了氯仿既可作为溶剂，又可作为氢原子供体在一系列羧酸的巴顿还原脱羧中使用（Ko，E. J. et al。Org。Lett。2011，13，1944）。在目前的工作中，进行了电子结构计算，直接动力学计算和实验研究的组合，以研究氯仿如何在Barton还原脱羧反应中充当氢原子供体，并确定该过程的范围。这项研究的结果表明，氯仿中的氢原子转移直接在动力学控制下发生，并且受极性效应和量子力学隧穿的联合帮助。氯仿可作为伯，仲和叔烷基的有效氢原子供体，尽管未应变的叔羧酸也可观察到明显的氯化反应。

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《The Journal of Organic Chemistry》 |2013年第13期|共11页
作者
Ho J.; Zheng J.; Meana-Pa?eda R.; Truhlar D.G.; Ko E.J.; Savage G.P.; Williams C.M.; Coote M.L.; Tsanaktsidis J.;
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正文语种 eng
中图分类有机化学;
关键词
Chloroform; Barton; Radicals;

机译：氯仿;巴顿;自由基;

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Chloroform as a hydrogen atom donor in barton reductive decarboxylation reactions

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