使用极性反转催化的胺化环己二烯的自由基转移氢胺化反应：范围与局限性

Radical transfer hydroamination with aminated cyclohexadienes using polarity reversal catalysis: scope and limitations.

作者信息

Guin Joyram, Mück-Lichtenfeld Christian, Grimme Stefan, Studer Armido

机构信息

Fachbereich Chemie, Organisch-Chemisches Institut, Westfälische Wilhelms-Universität, Corrensstrasse 40, 48149 Münster.

出版信息

J Am Chem Soc. 2007 Apr 11;129(14):4498-503. doi: 10.1021/ja0692581. Epub 2007 Mar 20.

DOI:10.1021/ja0692581

PMID:17371026

Abstract

The synthesis of various new 1-aminated-2,5-cyclohexadienes is described. These reagents can be used in radical transfer hydroaminations of unactivated and electron-rich double bonds. With thiols as polarity reversal catalysts good yields are obtained. The radical hydroamination occurs with good to excellent anti-Markovnikov selectivity. Many functional groups such as alcohols, silyl ethers, phosphonates, arylbromides, imides, amides, and also acidic protons are tolerated under the reaction conditions. DFT calculations provide insights into the aromatization of silyl, alkyl, and aminyl substituted cyclohexadienyl radicals to generate the corresponding C-, Si-, and N-centered radicals.

摘要

描述了各种新型1-氨基-2,5-环己二烯的合成。这些试剂可用于未活化和富电子双键的自由基转移氢胺化反应。以硫醇作为极性反转催化剂可获得良好的产率。自由基氢胺化反应具有良好至优异的反马氏选择性。在反应条件下，许多官能团如醇、硅醚、膦酸酯、芳基溴化物、酰亚胺、酰胺以及酸性质子都能耐受。密度泛函理论计算为硅基、烷基和氨基取代的环己二烯基自由基的芳构化生成相应的碳中心、硅中心和氮中心自由基提供了深入了解。

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使用极性反转催化的胺化环己二烯的自由基转移氢胺化反应：范围与局限性

Radical transfer hydroamination with aminated cyclohexadienes using polarity reversal catalysis: scope and limitations.

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