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Synthesis of trans-1,2-dimetalloalkenes through reductive anti-dimagnesiation and dialumination of alkynes

Fumiya Takahashi, Takashi Kurogi, Hideki Yorimitsu

2023Nature Synthesis27 citationsDOIOpen Access PDF

Abstract

Abstract Polar reactive organometallic species have been key reagents in synthesis for more than a century. Stereodefined 1,2-dimetallated alkenes offer promising synthetic utility; however, few methods are available for their preparation due to their relatively low stability. Here we report the reductive anti -1,2-dimetallation of alkynes to stereoselectively generate trans -1,2-dimagnesio- and 1,2-dialuminoalkenes, which are stable and have been demonstrated in organic synthesis. These stereodefined 1,2-dimetallated alkenes are prepared through the use of a sodium dispersion as a reducing agent, and organomagnesium and organoaluminium halides as reduction-resistant electrophiles. Highly nucleophilic 1,2-dimagnesioalkenes serve as dual Grignard reagents and have been demonstrated to react with various electrophiles to afford anti -difunctionalized alkenes. The 1,2-dialuminoalkenes react with paraformaldehyde with dearomatization of the aryl moieties to form the corresponding dearomatized 1,4-diols, with the overall reaction being regarded as alkynyl-directed dearomatization of arenes. X-ray crystallographic analysis further supports the formation of trans -1,2-dimagnesio- and 1,2-dialuminoalkenes, with computational studies providing insight into the mechanism of dearomative difunctionalization.

Topics & Concepts

ElectrophileChemistryNucleophileCombinatorial chemistryReagentReductive eliminationArylOrganic chemistryMedicinal chemistryCatalysisAlkylCoordination Chemistry and OrganometallicsOrganoboron and organosilicon chemistryCatalytic Cross-Coupling Reactions
Synthesis of trans-1,2-dimetalloalkenes through reductive anti-dimagnesiation and dialumination of alkynes | Litcius