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Dimer involvement and origin of crossover in nickel-catalyzed aldehyde-alkyne reductive couplings.

  • Author(s): Haynes, M Taylor
  • Liu, Peng
  • Baxter, Ryan D
  • Nett, Alex J
  • Houk, KN
  • Montgomery, John
  • et al.

Published Web Location

https://doi.org/10.1021/ja508909u
Abstract

The mechanism of nickel(0)-catalyzed reductive coupling of aldehydes and alkynes has been studied. Extensive double-labeling crossover studies have been conducted. While previous studies illustrated that phosphine- and N-heterocyclic carbene-derived catalysts exhibited differing behavior, the origin of these effects has now been evaluated in detail. Many variables, including ligand class, sterics of the ligand and alkyne, temperature, and ring size being formed in intramolecular versions, all influence the extent of crossover observed. A computational evaluation of these effects suggests that dimerization of a key metallacyclic intermediate provides the origin of crossover. Protocols that proceed with crossover are typically less efficient than those without crossover given the thermodynamic stability and low reactivity of the dimeric metallacycles involved in crossover pathways.

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