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Direct Evidence for Competitive C-H Activation by a Well-Defined Silver XPhos Complex in Palladium-Catalyzed C-H Functionalization

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JournalOrganometallics
DateE-pub ahead of print - 17 Apr 2022
Original languageEnglish

Abstract

Increasing evidence indicates that silver salts can play a role in the C-H activation step of palladium-catalyzed C-H functionalization. Here we isolate a silver(I) complex by C-H bond activation and demonstrate its catalytic competence for C-H functionalization. We demonstrate how silver carbonate, a common but highly insoluble additive, reacts with pentafluorobenzene in the presence of a bulky phosphine, XPhos, to form the C-H bond activation product Ag(C6F5)(XPhos). By isolating and fully characterizing this complex and the related carbonate and iodide complexes, [Ag(XPhos)]2(μ-κ2,κ2-CO3) and [AgI(XPhos)]2, we show how well-defined Ag(I) complexes can operate in conjunction with palladium complexes to achieve C-H functionalization even at ambient temperature. Reactions are tested against the standard cross-coupling of C6F5H with 4-iodotoluene, catalyzed by palladium acetate at 60 °C in the presence of silver carbonate and Xphos. Key observations are that (a) PdI(C6H5)(XPhos) reacts stoichiometrically with Ag(C6F5)(XPhos) to form Ph-C6F5 instantly at room temperature; (b) catalytic cross coupling can be achieved using 5% Ag(C6F5)(XPhos) as the sole silver source; and (c) palladium acetate (typical precatalyst) can be replaced for catalytic cross coupling by the expected oxidative addition compound PdI(C6H5)(XPhos). These investigations lead to a catalytic cycle in which Ag(I) plays the C-H bond activation role and palladium plays the coupling role. Moreover, we show how the phosphine can be exchanged between silver complexes, ensuring that it is recycled even though silver carbonate is consumed during catalytic cross-coupling.

Bibliographical note

Funding Information:
We are grateful to the Wild Fund of the University of York for a scholarship for G.A., to the University of York for funding a Ph.D. studentship for TFNT and laboratory equipment, and to Professor Simon Duckett for recording the P-Ag NMR spectra. 31 109

Publisher Copyright:
© 2022 American Chemical Society.

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