Issue 45, 2023

Electronically flexible PYA ligands for efficient palladium-catalyzed α-arylation of ketones

Abstract

Palladium-catalyzed cross-coupling chemistry and in particular ketone α-arylation has been relying on a rather narrow range of supporting ligands with almost no alternatives to phosphines and N-heterocyclic carbenes. Here we introduce a class of well-defined palladium(II) complexes supported by N,N′-chelating and electronically flexible pyridylidene amide (PYA)-pyridyl ligands as catalysts for efficient α-arylation of ketones. Steric and electronic variations of the N,N′-bidentate ligand indicate that the introduction of an ortho-methyl group on the pyridinum heterocycle of the PYA ligand enhances the arylation rate and prevents catalyst deactivation, reaching turnover numbers up to 7300 and turnover frequencies of almost 10 000 h−1, which is similar to that of the best phosphine complexes known to date. Introducing a shielding xylyl substituent accelerates catalysis further, however at the expense of lower selectivity towards arylated ketones. Substrate scope investigations revealed that both electron-rich and -poor aryl bromides as well as a broad range of electronically and sterically modified ketones are efficiently converted, including aliphatic ketones. Mechanistic investigations using Hammett and Eyring analyses indicated that both, oxidative addition and reductive elimination are relatively fast, presumably as a consequence of the electronic flexibility of the PYA ligand, while enolate coordination was identified as the turnover-limiting step.

Graphical abstract: Electronically flexible PYA ligands for efficient palladium-catalyzed α-arylation of ketones

Supplementary files

Article information

Article type
Paper
Submitted
27 Sep 2023
Accepted
17 Oct 2023
First published
18 Oct 2023
This article is Open Access
Creative Commons BY license

Dalton Trans., 2023,52, 16688-16697

Electronically flexible PYA ligands for efficient palladium-catalyzed α-arylation of ketones

E. Reusser and M. Albrecht, Dalton Trans., 2023, 52, 16688 DOI: 10.1039/D3DT03182A

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