343319-72-2Relevant academic research and scientific papers
Cobalt Catalyst Determines Regioselectivity in Ring Opening of Epoxides with Aryl Halides
Potrz?saj, Aleksandra,Musiejuk, Mateusz,Cha?adaj, Wojciech,Giedyk, Maciej,Gryko, Dorota
supporting information, p. 9368 - 9376 (2021/06/28)
Ring-opening of epoxides furnishing either linear or branched products belongs to the group of classic transformations in organic synthesis. However, the regioselective cross-electrophile coupling of aryl epoxides with aryl halides still represents a key challenge. Herein, we report that the vitamin B12/Ni dual-catalytic system allows for the selective synthesis of linear products under blue-light irradiation, thus complementing methodologies that give access to branched alcohols. Experimental and theoretical studies corroborate the proposed mechanism involving alkylcobalamin as an intermediate in this reaction.
Nickel-catalyzed cross-coupling of styrenyl epoxides with boronic acids
Nielsen, Daniel K.,Doyle, Abigail G.
supporting information; experimental part, p. 6056 - 6059 (2011/09/13)
Let's get multicatalytic! A Ni0 catalyst complexed with a biaryldialkyl monophosphine ligand facilitates C-C bond formation between styrenyl epoxides and aryl boronic acids (see scheme). X-ray analysis of a catalytically active nickel/ligand complex supports a redox pathway involving C sp 3-O bond activation. A variety of α-substituted alcohols were generated with good reaction efficiency by a multicatalytic sequence. Copyright
