Direct observation of two-electron Ag(I)/Ag(III) redox cycles in coupling catalysis

orcId Font Molins, Marc scopusId Font Molins, Marc
Font Molins, Marc
orcId Acuña-Parés, Ferran scopusId Acuña-Parés, Ferran
Acuña-Parés, Ferran
Parella Coll, Teodor
orcId Serra Parareda, Jordi
Serra Parareda, Jordi
orcId Luis Luis, Josep Maria researcherId Luis Luis, Josep Maria scopusId Luis Luis, Josep Maria
Luis Luis, Josep Maria
orcId Lloret Fillol, Julio researcherId Lloret Fillol, Julio scopusId Lloret Fillol, Julio
Lloret Fillol, Julio
orcId Costas Salgueiro, Miquel researcherId Costas Salgueiro, Miquel scopusId Costas Salgueiro, Miquel
Costas Salgueiro, Miquel
orcId Ribas Salamaña, Xavi scopusId Ribas Salamaña, Xavi
Ribas Salamaña, Xavi
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Silver is extensively used in homogeneous catalysis for organic synthesis owing to its Lewis acidity, and as a powerful one-electron oxidant. However, two-electron redox catalytic cycles, which are most common in noble metal organometallic reactivity, have never been considered. Here we show that a Ag(I)/Ag(III) catalytic cycle is operative in model C–O and C–C cross-coupling reactions. An aryl-Ag(III) species is unequivocally identified as an intermediate in the catalytic cycle and we provide direct evidence of aryl halide oxidative addition and C–N, C–O, C–S, C–C and C–halide bond-forming reductive elimination steps at monometallic silver centres. We anticipate our study as the starting point for expanding Ag(I)/ Ag(III) redox chemistry into new methodologies for organic synthesis, resembling well-known copper or palladium cross-coupling catalysis. Furthermore, findings described herein provide unique fundamental mechanistic understanding on Ag-catalysed cross-coupling reactions and dismiss the generally accepted conception that silver redox chemistry can only arise from one-electron processes ​
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