Herein we report a novel visible-light-mediated external reductant-free reductive cross coupling for the construction of C sp2–C sp3 bonds.A variety of benzylammonium salts underwent selective coupling with(hetero)ar...Herein we report a novel visible-light-mediated external reductant-free reductive cross coupling for the construction of C sp2–C sp3 bonds.A variety of benzylammonium salts underwent selective coupling with(hetero)aryl nitriles to deliver important diarylmethanes under mild reaction conditions.Importantly,photocatalysts can be omitted for many cases,which might involve the electron donor acceptor(EDA)complex.Mechanistic studies indicated benzylic radicals might be involved as the key intermediates.Moreover,the in situ generated NMe3 via cleavage of C–N bond in ammonium salts acts as the electron donor,thus avoiding the use of external-reductant.展开更多
基金supported by the National Natural Science Foundation of China(21772129,21801176)the The National Basic Research Program of China from the Minstry of Science and Technology of China(2015CB856600)+2 种基金Sichuan Science and Technology Program(2019YJ0379)Neijiang Normal University(KF10076)the Fundamental Research Funds for the Central Universities(YJ201516)
文摘Herein we report a novel visible-light-mediated external reductant-free reductive cross coupling for the construction of C sp2–C sp3 bonds.A variety of benzylammonium salts underwent selective coupling with(hetero)aryl nitriles to deliver important diarylmethanes under mild reaction conditions.Importantly,photocatalysts can be omitted for many cases,which might involve the electron donor acceptor(EDA)complex.Mechanistic studies indicated benzylic radicals might be involved as the key intermediates.Moreover,the in situ generated NMe3 via cleavage of C–N bond in ammonium salts acts as the electron donor,thus avoiding the use of external-reductant.
