Publikation: Cage escape governs photoredox reaction rates and quantum yields
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2024
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Swiss National Science Foundation: 200020_207329
Deutsche Forschungsgemeinschaft (DFG): 496811278
Deutsche Forschungsgemeinschaft (DFG): 496811278
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Open Access-Veröffentlichung
Open Access Hybrid
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Core Facility der Universität Konstanz
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Published
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Nature Chemistry. Springer. 2024, 16(7), S. 1151-1159. ISSN 1755-4330. eISSN 1755-4349. Verfügbar unter: doi: 10.1038/s41557-024-01482-4
Zusammenfassung
Photoredox catalysis relies on light-induced electron transfer leading to a radical pair comprising an oxidized donor and a reduced acceptor in a solvent cage. For productive onward reaction to occur, the oxidized donor and the reduced acceptor must escape from that solvent cage before they undergo spontaneous reverse electron transfer. Here we show the decisive role that cage escape plays in three benchmark photocatalytic reactions, namely, an aerobic hydroxylation, a reductive debromination and an aza-Henry reaction. Using ruthenium(II)- and chromium(III)-based photocatalysts, which provide inherently different cage escape quantum yields, we determined quantitative correlations between the rates of photoredox product formation and the cage escape quantum yields. These findings can be largely rationalized within the framework of Marcus theory for electron transfer.
Zusammenfassung in einer weiteren Sprache
Fachgebiet (DDC)
540 Chemie
Schlagwörter
Catalytic mechanisms, Coordination chemistry, Electron transfer, Photocatalysis, Optical spectroscopy
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ISO 690
WANG, Cui, Han LI, Tobias H. BÜRGIN, Oliver S. WENGER, 2024. Cage escape governs photoredox reaction rates and quantum yields. In: Nature Chemistry. Springer. 2024, 16(7), S. 1151-1159. ISSN 1755-4330. eISSN 1755-4349. Verfügbar unter: doi: 10.1038/s41557-024-01482-4BibTex
@article{Wang2024-07escap-73914,
title={Cage escape governs photoredox reaction rates and quantum yields},
year={2024},
doi={10.1038/s41557-024-01482-4},
number={7},
volume={16},
issn={1755-4330},
journal={Nature Chemistry},
pages={1151--1159},
author={Wang, Cui and Li, Han and Bürgin, Tobias H. and Wenger, Oliver S.}
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<dcterms:abstract>Photoredox catalysis relies on light-induced electron transfer leading to a radical pair comprising an oxidized donor and a reduced acceptor in a solvent cage. For productive onward reaction to occur, the oxidized donor and the reduced acceptor must escape from that solvent cage before they undergo spontaneous reverse electron transfer. Here we show the decisive role that cage escape plays in three benchmark photocatalytic reactions, namely, an aerobic hydroxylation, a reductive debromination and an aza-Henry reaction. Using ruthenium(II)- and chromium(III)-based photocatalysts, which provide inherently different cage escape quantum yields, we determined quantitative correlations between the rates of photoredox product formation and the cage escape quantum yields. These findings can be largely rationalized within the framework of Marcus theory for electron transfer.</dcterms:abstract>
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