Valence Tautomerism Induced Proton Coupled Electron Transfer:X−H Bond Oxidation with a Dinuclear Au(II) Hydroxide Complex

We report the preparation and characterization of the dinuclear AuII hydroxide complex AuII2(L)2(OH)2 (L=N,N′‐bis (2,6‐dimethyl) phenylformamidinate) and study its reactivity towards weak X−H bonds. Through the interplay of kinetic analysis and computational studies, we demonstrate that the oxidatio...

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Veröffentlicht in:	Angewandte Chemie International Edition 2024-04, Vol.63 (14), p.e202318916-n/a
Hauptverfasser:	Hess, Kristopher M., Leach, Isaac F., Wijtenhorst, Lisa, Lee, Hangyul, Klein, Johannes E. M. N.
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Sprache:	eng
Schlagworte:	Basicity Bonding strength Electron transfer Hydrogen bonds Oxidation Protons Tautomerism
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creator	Hess, Kristopher M. Leach, Isaac F. Wijtenhorst, Lisa Lee, Hangyul Klein, Johannes E. M. N.
description	We report the preparation and characterization of the dinuclear AuII hydroxide complex AuII2(L)2(OH)2 (L=N,N′‐bis (2,6‐dimethyl) phenylformamidinate) and study its reactivity towards weak X−H bonds. Through the interplay of kinetic analysis and computational studies, we demonstrate that the oxidation of cyclohexadiene follows a concerted proton‐coupled electron transfer (cPCET) mechanism, a rare type of reactivity for Au complexes. We find that the Au−Au σ‐bond undergoes polarization in the PCET event leading to an adjustment of oxidation levels for both Au centers prior to C(sp3)−H bond cleavage. We thus describe the oxidation event as a valence tautomerism‐induced PCET where the basicity of one reduced Au−OH unit provides a proton acceptor and the second more oxidized Au center serves as an electron acceptor. The coordination of these events allows for unprecedented radical‐type reactivity by a closed shell AuII complex. Proton‐Coupled electron transfer (PCET)‐type reactivity of the dinuclear AuII hydroxide complex AuII2(L)2(OH)2 (L=N,N′‐bis (2,6‐dimethyl) phenylformamidinate) towards weak X−H bonds is reported. For C(sp3)−H oxidation Au−Au σ‐bond polarization leads to an adjustment of oxidation levels for both Au centers prior to the PCET event. The oxidation event for C(sp3)−H bonds is therefore described as a valence tautomerism induced PCET, where a basic reduced Au−OH unit serves as proton acceptor and the second more oxidized Au center as an electron acceptor.
doi_str_mv	10.1002/anie.202318916
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The coordination of these events allows for unprecedented radical‐type reactivity by a closed shell AuII complex. Proton‐Coupled electron transfer (PCET)‐type reactivity of the dinuclear AuII hydroxide complex AuII2(L)2(OH)2 (L=N,N′‐bis (2,6‐dimethyl) phenylformamidinate) towards weak X−H bonds is reported. For C(sp3)−H oxidation Au−Au σ‐bond polarization leads to an adjustment of oxidation levels for both Au centers prior to the PCET event. 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We thus describe the oxidation event as a valence tautomerism‐induced PCET where the basicity of one reduced Au−OH unit provides a proton acceptor and the second more oxidized Au center serves as an electron acceptor. The coordination of these events allows for unprecedented radical‐type reactivity by a closed shell AuII complex. Proton‐Coupled electron transfer (PCET)‐type reactivity of the dinuclear AuII hydroxide complex AuII2(L)2(OH)2 (L=N,N′‐bis (2,6‐dimethyl) phenylformamidinate) towards weak X−H bonds is reported. For C(sp3)−H oxidation Au−Au σ‐bond polarization leads to an adjustment of oxidation levels for both Au centers prior to the PCET event. 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subjects	Basicity Bonding strength Electron transfer Hydrogen bonds Oxidation Protons Tautomerism
title	Valence Tautomerism Induced Proton Coupled Electron Transfer:X−H Bond Oxidation with a Dinuclear Au(II) Hydroxide Complex
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