Transition metal-catalyzed olefin arylation via C–H bond activation of arenes

Abstract: In this article, two kinds of our transition metal-catalyzed olefin arylations are summarized and discussed. The first one is Ir-catalyzed novel anti-Markovnikov hydroarylation of olefins with benzene. Using this reaction catalyzed by [Ir(l-acac-O,O¢,C 3 )(acac-O,O¢)(acac-C 3 )] 2 (acac = acetylacetonato), 1, straight-chain alkylarenes, which were not obtainable by the conventional Friedel-Crafts aromatic alkylation with olefins, were able to be successfully synthesized directly from arenes and olefins with th… Show more

“…Also, alkylated arene products are generally more reactive than starting arenes, resulting in polyalkylation. Transition metal complexes that catalyze olefin hydroarylation through a pathway that combines olefin insertion and aromatic C–H activation offers opportunities to access new selectivities, such as the formation of linear alkyl arenes from arenes and α‐olefins, regioselective dialkylation and selective mono‐alkylation , , …”

Transition Metal Mediated C–H Activation and Functionalization: The Role of Poly(pyrazolyl)borate and Poly(pyrazolyl)alkane Ligands

“…Also, alkylated arene products are generally more reactive than starting arenes, resulting in polyalkylation. Transition metal complexes that catalyze olefin hydroarylation through a pathway that combines olefin insertion and aromatic C–H activation offers opportunities to access new selectivities, such as the formation of linear alkyl arenes from arenes and α‐olefins, regioselective dialkylation and selective mono‐alkylation , , …”

Transition Metal Mediated C–H Activation and Functionalization: The Role of Poly(pyrazolyl)borate and Poly(pyrazolyl)alkane Ligands

CH Bond Alkylation (Including Hydroarylation of Alkenes)

oxidative arylation