Huiying Kang scite author profile

The conventional oxidative Heck reaction between aryl boronic acids and alkenes typically involved the PdII/Pd0/PdII catalytic cycle incorporating an external oxidant and often suffered C=C bond isomerization for internal alkyl-substituted alkenes via chain-walking. Herein, we demonstrate that the regioselectivity (γ-selectivity vs. δ-selectivity) and pathway selectivity (hydroarylation vs. oxidative Heck coupling) of a directed Ni-catalyzed alkene arylation can be controlled by judicious tuning of the coordination environment around the nickel catalyst via optimization of an appropriate phosphine ligand and directing group. In this way, the Ni(0)-catalyzed oxidative Heck arylation that relies on transfer hydrogenation of an acceptor olefin is developed with excellent E/Z selectivity and regioselectivity. Mechanistic investigations suggest that the addition of the acceptor is crucial for lowering the energy for carbometalation and for enabling catalytic turnover.

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Co9S8 nanoparticles scaffolded within carbon-nanoparticles-decorated carbon spheres as anodes for lithium and sodium storage

Lian

Chen

Kang

et al. 2020

Applied Surface Science

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Huiying Kang

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Nickel-catalyzed intermolecular oxidative Heck arylation driven by transfer hydrogenation

Co9S8 nanoparticles scaffolded within carbon-nanoparticles-decorated carbon spheres as anodes for lithium and sodium storage

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