Ligand-free Nickel-catalyzed carboxylate O-arylation: Mechanistic in-sight into NiI/NiIII cycles

01 April 2022, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Nickel-catalyzed cross-coupling reactions have become a powerful methodology to construct C–heteroatom bonds. How-ever, many protocols suffer from competitive off-cycle reaction pathways and require non-equimolar amounts of cou-pling partners to suppress them. Here, we report on mechanistic examination of carboxylate O-arylation under thermal conditions, in both the presence and absence of an exogeneous bipyridine-ligand. Furthermore, spectroscopic studies of the novel ligand-free carboxylate O-arylation reaction unveiled the resting state of the nickel catalyst, the crucial role of the alkylamine base and the formation of a catalytically relevant NiI–NiII dimer upon reduction. This study provides in-sights into the competition between productive catalysis and deleterious pathways (comproportionation and pro-todehalogenation) that exist for all elementary steps in the commonly proposed self-sustained NiI/NiIII catalytic cycle. Thereby we show that for productive nickel-catalyzed carboxylate O-arylation a choice must be made between either mild conditions or equimolar ratios of substrates.

Keywords

catalysis
nickel
arylation
ester
C-heteroatom bond formatiom
carboxylate

Supplementary materials

Title
Description
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Title
Supplementary Materials for Ligand-free Nickel-catalyzed carboxylate O-arylation: Mechanistic insight into Ni(I)/Ni(III) cycles
Description
Methods and materials, spectroscopic details, additional experiments performed,
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