芳香族C-H胺化：一种为面向生物学和材料的芳烃添加新功能的自由基方法。

Aromatic C-H amination: a radical approach for adding new functions into biology- and materials-oriented aromatics.

作者信息

Murakami Kei, Perry Gregory J P, Itami Kenichiro

机构信息

Institute of Transformative Bio-Molecules (WPI-ITbM) and Graduate School of Science, Nagoya University, Chikusa, Nagoya 464-8602, Japan.

出版信息

Org Biomol Chem. 2017 Aug 7;15(29):6071-6075. doi: 10.1039/c7ob00985b. Epub 2017 Jul 6.

DOI:10.1039/c7ob00985b

PMID:28681886

Abstract

C-H amination is the most powerful method to directly add nitrogen functionalities into a variety of arenes including biology- and materials-oriented molecules. Recent developments in aromatic C-H amination chemistry have enabled the conversion of unactivated arenes into a range of arylamine derivatives without using directing groups or excess amounts of arenes. The key for such successful transformations is the catalytic generation of nitrogen or arene radical intermediates. In this perspective, we discuss recent developments in the radical C-H amination of aromatic molecules. We believe the resulting arylamines, which are hitherto difficult to access, will exhibit unexplored functions for biological and materials application.

摘要

碳-氢胺化是将氮官能团直接引入各种芳烃（包括面向生物和材料的分子）的最有效方法。芳烃碳-氢胺化化学的最新进展使得未活化的芳烃能够在不使用导向基团或过量芳烃的情况下转化为一系列芳胺衍生物。这种成功转化的关键是氮或芳烃自由基中间体的催化生成。从这个角度出发，我们讨论了芳烃分子自由基碳-氢胺化的最新进展。我们相信，迄今为止难以获得的所得芳胺将在生物和材料应用中展现出尚未被探索的功能。

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芳香族C-H胺化：一种为面向生物学和材料的芳烃添加新功能的自由基方法。

Aromatic C-H amination: a radical approach for adding new functions into biology- and materials-oriented aromatics.

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