化学
合成子
炔基化
硅烷
激进的
对映选择合成
基质(水族馆)
立体化学
组合化学
氢原子萃取
聚酮
有机合成
范围(计算机科学)
立体选择性
不对称诱导
形式综合
功能群
氢键
试剂
有机化学
三键
催化作用
分子
不对称碳
作者
Ping Zhao,Yunshun Deng,Pinhong Chen,Guosheng Liu
摘要
Herein, we established a copper-catalyzed asymmetric alkynylation of the sp2 C–H bond of silylallenes, which was presented as an efficient method for the synthesis of enantioenriched skipped diynes with excellent enantioselectivity. The reaction was initiated by hydrogen atom abstraction of sp2 allenic C–H bonds, in which the resonance forms of allenic and propargylic radicals were chemo- and enantioselectively trapped by chiral alkynyl-Cu(II) species to deliver a variety of skipped diynes. The method features a broad substrate scope and robust functional group tolerance, accommodating both alkynyl silanes and boronic esters. Moreover, the resulting skipped diynes serve as versatile key synthons for incorporating enantiomerically enriched enynes, alkynes, alkanes, and their derivatives, which could be applied in the concise synthesis of several bioactive molecules.
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