通过氢原子转移(HAT)过程实现的N-杂环卡宾介导的惰性C(Sp)-H键官能化。
N-Heterocyclic Carbene Enabled Functionalization of Inert C(Sp)-H Bonds via Hydrogen Atom Transfer (HAT) Processes.
作者信息
Lu Fengfei, Su Fen, Pan Shijie, Wu Xiuli, Wu Xingxing, Chi Yonggui Robin
机构信息
State Key Laboratory of Green Pesticides, Key Laboratory of Green Pesticide and Agricultural Bioengineering, Ministry of Education, Guizhou University, Huaxi District, Guiyang, 550025, China.
School of Chemistry, Chemical Engineering, and Biotechnology, Nanyang Technological University, Singapore, 637371, Singapore.
出版信息
Chemistry. 2024 Aug 22;30(47):e202401811. doi: 10.1002/chem.202401811. Epub 2024 Aug 2.
Developing methods to directly transform C(sp) -H bonds is crucial in synthetic chemistry due to their prevalence in various organic compounds. While conventional protocols have largely relied on transition metal catalysis, recent advancements in organocatalysis, particularly with radical NHC catalysis have sparked interest in the direct functionalization of "inert" C(sp) -H bonds for cross C-C coupling with carbonyl moieties. This strategy involves selective cleavage of C(sp) -H bonds to generate key carbon radicals, often achieved via hydrogen atom transfer (HAT) processes. By leveraging the bond dissociation energy (BDE) and polarity effects, HAT enables the rapid functionalization of diverse C(sp)-H substrates, such as ethers, amines, and alkanes. This mini-review summarizes the progress in carbene organocatalytic functionalization of inert C(sp)-H bonds enabled by HAT processes, categorizing them into two sections: 1) C-H functionalization involving acyl azolium intermediates; and 2) functionalization of C-H bonds via reductive Breslow intermediates.
开发直接转化C(sp) -H键的方法在合成化学中至关重要,因为它们在各种有机化合物中普遍存在。虽然传统方法主要依赖于过渡金属催化,但有机催化领域的最新进展,特别是自由基NHC催化,引发了人们对“惰性”C(sp) -H键与羰基部分进行交叉C-C偶联直接官能化的兴趣。该策略涉及选择性裂解C(sp) -H键以生成关键的碳自由基,这通常通过氢原子转移(HAT)过程实现。通过利用键解离能(BDE)和极性效应,HAT能够使各种C(sp)-H底物(如醚、胺和烷烃)快速官能化。本综述总结了由HAT过程实现的卡宾有机催化惰性C(sp)-H键官能化的进展,将其分为两个部分:1)涉及酰基唑鎓中间体的C-H官能化;2)通过还原布雷斯洛中间体对C-H键进行官能化。
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