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Versatile and Highly Efficient <i>trans</i>‐[Pd(NHC)Cl<sub>2</sub>(DMS/THT)] Precatalysts for C−N and C−C Coupling Reactions in Green Solvents

Yaxu Liu, Vladislav A. Voloshkin, Thomas Scattolin, Min Peng, Kristof Van Hecke, Steven P. Nolan, Catherine S. J. Cazin

2022European Journal of Organic Chemistry28 citationsDOIOpen Access PDF

Abstract

Abstract A straightforward synthetic procedure to well‐defined, air‐ and moisture‐ stable trans ‐[Pd(NHC)Cl 2 (DMS/THT)] (NHC=IPr, SIPr, IMes, IPr Cl , IPr*, IPr # ) pre‐catalysts is reported. These complexes were obtained by reacting NHC ⋅ HCl imidazolium salts with trans ‐[PdCl 2 (DMS/THT) 2 ] precursors with the assistance of the weak base K 2 CO 3 in green acetone at 40 °C. The scalability of this protocol was demonstrated. The catalytic activity of the synthesized complexes was studied in the Buchwald‐Hartwig and Suzuki‐Miyaura reactions. Remarkably, most of the synthesized complexes exhibit higher catalytic activity with respect to their PEPPSI congeners in the Buchwald‐Hartwig amination in 2‐MeTHF. In particular, complex trans ‐[Pd(IPr # )Cl 2 (DMS)] enabled the coupling of various (hetero)aryl chlorides and primary/secondary amines with a 0.2 mol% catalyst loading. In addition, trans ‐[Pd(IPr)Cl 2 (DMS)] showed excellent performance in the room‐temperature Suzuki‐Miyaura reaction involving various (hetero)aryl chlorides and aryl boronic acids. In summary, the synthesized complexes, especially trans ‐[Pd(NHC)Cl 2 (DMS)], can be considered as greener alternatives to classical PEPPSI type catalysts based on the lower toxicity of the throw‐away DMS ligand compared to 3‐chloropyridine.

Topics & Concepts

ChemistryArylCatalysisLigand (biochemistry)Medicinal chemistryAminationPalladiumSuzuki reactionCombinatorial chemistryOrganic chemistryAlkylBiochemistryReceptorCatalytic Cross-Coupling ReactionsN-Heterocyclic Carbenes in Organic and Inorganic ChemistryAsymmetric Hydrogenation and Catalysis