Abstract
Tuning the electronics of photocatalysts is crucial for controlling the reactivity pathways in photoredox catalysis. While the key approaches like ligand engineering and donor-acceptor modulation are crucial, they invariably require multistep synthesis for the generation of photocatalyst library. Counterions are inherent to all cationic photocatalysts but interestingly their potential to influence reactivity has often been overlooked. Herein, we demonstrate an unforeseen reactivity control that uses counterions to tune electronics in dinuclear-gold-photoredox catalysis. The photoexcited [AuI–AuI]2+ complex selectively reduces S(VI)–Cl bonds; whereas, inner sphere halide coordination generates a potent reductant [Au1/2–Au1/2]+, capable of reducing otherwise unreactive S(VI)–F bonds. A successful application of this concept is demonstrated in the alkene functionalization using sulfonyl chlorides and sulfonyl fluorides. Detailed mechanistic studies provide experimental evidence for the [Au1/2–Au1/2]+ species, which has been proposed earlier but has not been experimentally validated.
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Acknowledgements
We acknowledge Prof. Subi J. George, JNCASR, Bengaluru, for assistance in carrying out Circularly Polarized Luminescence (CPL) studies. This work is supported by the Anusandhan National Research Foundation (ANRF), India (CRG/2022/000195, SCP/2022/000063, and JCB/2022/000052). M.V.M. discloses support for the research of this work from ANRF (ANRF/ECRG/2024/002337/CS). M.B.T. thanks to SERB (PDF/2022/002920), New Delhi for providing the National Post-Doctoral Fellowship. A.D. thanks CSIR for the fellowship.
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Thoke, M.B., Das, A., Kulkarni, D.S. et al. Counterion-enabled divergent reactivity in dinuclear gold photoredox catalysis. Nat Commun (2026). https://doi.org/10.1038/s41467-026-72914-7
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DOI: https://doi.org/10.1038/s41467-026-72914-7
