化学
电泳剂
羰基化
催化作用
一氧化碳
钯
醛
组合化学
氢甲酰化
位阻效应
有机化学
炔烃
铑
作者
Yong Ho Lee,Elliott H. Denton,Bill Morandi
出处
期刊:Nature Chemistry
[Nature Portfolio]
日期:2021-01-29
卷期号:13 (2): 123-130
被引量:38
标识
DOI:10.1038/s41557-020-00621-x
摘要
Hydroformylation, a reaction that installs both a C-H bond and an aldehyde group across an unsaturated substrate, is one of the most important catalytic reactions in both industry and academia. Given the synthetic importance of creating new C-C bonds, the development of carboformylation reactions, wherein a new C-C bond is formed instead of a C-H bond, would bear enormous synthetic potential to rapidly increase molecular complexity in the synthesis of valuable aldehydes. However, the demanding complexity inherent in a four-component reaction, utilizing an exogenous CO source, has made the development of a direct carboformylation reaction a formidable challenge. Here, we describe a palladium-catalysed strategy that uses readily available aroyl chlorides as a carbon electrophile and CO source, in tandem with a sterically congested hydrosilane, to perform a stereoselective carboformylation of alkynes. An extension of this protocol to four chemodivergent carbonylations further highlights the creative opportunity offered by this strategy in carbonylation chemistry.
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