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Abstract
Transition-metal-catalyzed amination of aryl halides is one of the most employed methods for constructing N-arylation ad-ducts. However, the broad success of these reactions is largely relying on the screening of pre-catalysts, elaborating ligands, and case-by-case optimization of the reaction conditions (solvent, base, additive, temperature etc.) and electronic or struc-tural diversities of nucleophiles, for forging diverse C-N coupling products. Herein, we reported an adaptive photochemical C-N coupling of aryl halides with various nitrogen nucleophiles (aliphatic and aromatic amines, amides, sulfonamides, pyra-zoles, and ammonium salts) by Co(II) catalysis under the same reaction conditions (same pre-catalyst, same ligand, same base, same solvent, same temperature) without the addition of any exogenous photocatalyst. This photochemical amination features a wide substrate scope (>130 examples, up to 95% yield) with excellent functional group tolerance. Mechanistic studies indicate that this C-N coupling reactions may proceed via a Co(I)/Co(III) catalytic cycle.
Supplementary materials
Title
Adaptive Photochemical Amination via Co(II) Catalysis
Description
An efficient and general photochemical Cocatalyzed C–N coupling between aryl halides with amines under irradiation at 390–395 nm without any exogenous photosensitizers, delivering functionalized N-arylation adducts in good to excellent yields under the same reaction conditions (same precatalyst, same ligand, same solvent, same base, same temperature). Mechanistic studies indicate that a Co(I)/Co(III) catalytic cycle may be involved in the reaction.
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