Litcius/Paper detail

Enantioselective construction of C-B axially chiral alkenylborons by nickel-catalyzed radical relayed reductive coupling

Weihua Qiu, Rencai Tao, Yong He, Yao Zhou, Kai Yang, Qiuling Song

2024Nature Communications21 citationsDOIOpen Access PDF

Abstract

The catalytic asymmetric synthesis of axially chiral alkenes remains a daunting challenge due to the lower rotational barrier, especially for longer stereogenic axis (e.g. C-B axis). The asymmetric radical difunctionalization of alkynes represents an efficient strategy for these targets. Key to the success of such transformations lies in aryl-stabilized highly reactive alkenyl radical intermediates, however, it remains an elusive whether a boryl group could play a similar role. Here we report a nickel-catalyzed atroposelective radical relayed reductive coupling reaction of our designed ethynyl-azaborines with simple alkyl and aryl halides through a boron-stabilized vinyl radical intermediate. This transformation enables a straightforward access to the challenging axially chiral alkenylborons bearing a C-B axis in generally high enantioselectivity and excellent stereoselectivity. The catalytic asymmetric synthesis of axially chiral alkenes remains a challenge due to the lower rotational barrier, especially for longer stereogenic axis. Here the authors report a nickel-catalyzed atroposelective radical relayed reductive coupling reaction of ethynyl-azaborines with alkyl/aryl halides through a boron-stabilized vinyl radical intermediate.

Topics & Concepts

StereocenterArylCatalysisChemistryHalideAlkylEnantioselective synthesisReductive eliminationCombinatorial chemistryNickelStereoselectivityPhotochemistryOrganic chemistryAxial and Atropisomeric Chirality SynthesisMolecular spectroscopy and chiralityPlant and Fungal Species Descriptions