The photocatalyst-free electron donor–acceptor
(EDA) complex
photochemistry was deemed to expand the potential of photodriven radical
chemistry. Here, we report a cross-coupling reaction of thianthrenium
salt functionalized arenes and sodium sulfinates via a photopromoted
single electron transfer (SET) process of an EDA complex. A series
of biarylsulfones were obtained with high site-selectivity and reactivity.
This mild and practical radical reaction could be applied on the bioactive
and DNA-encoded molecules.
DNA-encoded
library (DEL) technology is a powerful tool in the
discovery of bioactive probe molecules and drug leads. Mostly, the
success in DEL technology stems from the molecular diversity of the
chemical libraries. However, the construction of DELs has been restricted
by the idiosyncratic needs and the required low concentration (∼1
mM or less) of the library intermediate. Here, we report visible-light-promoted
on-DNA radical coupling reactions via an electron donor–acceptor
(EDA) complex and a reversible adsorption to solid support (RASS)
strategy. This protocol provides a unique solution to the challenges
of increasing the reactivity of highly diluted DNA substrates and
reducing the residues of heavy metals from photocatalysts. A series
of on-DNA indole sulfone and selenide derivatives were obtained with
good to quantitative conversions. It is anticipated that these mild-condition
on-DNA radical reactions will significantly improve the chemical diversity
of DELs and find widespread utility to DEL construction.
The tertiary amine and ketone components of 1-carbonyl-substituted anilines undergo [1,2] and [2,3] Stevens rearrangement reactions, triggered by a C 4 F 9 radical, formed from electron donor-acceptor complexes. This approach enables the formation of a quaternary ammonium salt and thus a Stevens rearrangement to afford indolin-3ones under mild conditions.
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