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Reductive stereo- and regiocontrolled boryllithiation and borylsodiation of arylacetylenes using flow microreactors

Yiyuan Jiang, Takashi Kurogi, Hideki Yorimitsu

2023Nature Synthesis21 citationsDOIOpen Access PDF

Abstract

Abstract Given their prevalence within valuable organic compounds, constructing multisubstituted alkenes while stereo- and regiochemically controlling the substituents on the alkene stands as a pivotal objective in organic synthesis. Now, the stereo- and regioselective syn -boryllithiation and syn -borylsodiation of arylacetylenes have been achieved by reductive borylmetallation using flow microreactors. This method involves the fast mixing of a solution of an alkyne and stoichiometric alkoxypinacolborane with an alkali metal arenide solution, which efficiently generates highly reactive β-borylalkenyllithium and β-borylalkenylsodium species by suppressing the undesired diboration that inevitably occurs in a batch reactor. Unlike conventional three-component borofunctionalization, the intermediates can be generated in the absence of electrophiles, which has enabled diverse electrophiles to participate in various syn -borofunctionalizations such as borylsilylation, borylhalogenation, borylcarbonylation, borylsulfenylation and borylarylation. Trapping with aldehydes and ketones provides a series of oxaboroles of biological interest. Furthermore, unsymmetric diarylacetylenes undergo highly regioselective borylmetallation, which is applicable to the stereo- and regiocontrolled syntheses of multisubstituted oxaboroles and differently tetrasubstituted alkenes.

Topics & Concepts

RegioselectivityElectrophileAlkeneChemistryMicroreactorAlkyneCombinatorial chemistryOrganic synthesisOrganic chemistryCatalysisCatalytic Cross-Coupling ReactionsOrganoboron and organosilicon chemistryRadical Photochemical Reactions
Reductive stereo- and regiocontrolled boryllithiation and borylsodiation of arylacetylenes using flow microreactors | Litcius