Activation Mechanism of Nickel(0) N -Heterocyclic Carbene Catalysts Stabilized by Fumarate Ligands.
Michael T RoboAmie R FrankEllen ButlerAlex J NettSantiago CañellasPaul M ZimmermanJohn MontgomeryPublished in: Organometallics (2022)
Nickel(0) catalysts of N -heterocyclic carbenes (NHCs) that are stabilized by electron-deficient alkenes possess desirable properties of air tolerance and ease of handling while also retaining high catalytic activities. Since catalyst stability often comes at the expense of catalytic activity, we have undertaken a detailed study of the activation mechanism of an IMes-nickel(0) catalyst stabilized by di( o -tolyl) fumarate that converts the stable precatalyst form into a catalytically active species. Computational evaluation provided evidence against a simple ligand exchange as the activation mechanism for this catalyst, and a stoichiometric activation process that covalently modifies the stabilizing ligand was identified. A detailed computational picture for the activation process was developed, with predictive insights that elucidate an unexpected catalyst activation pathway that operates when ligand exchange is thermodynamically unfavorable.