What question did this study set out to answer?

The research aims to develop a new strategy for synthesizing S-functionalized imidazoles using visible light.

February 22, 2026Open Access

Multicomponent Photochemical Assembly of C(sp 2 )–S Substituted Imidazoles via Exciplex Formation

Key Points

The research aims to develop a new strategy for synthesizing S-functionalized imidazoles using visible light.
Utilized readily available organic halides, isothiocyanates, and isocyanides.
Employed a photocatalyst-free, mild synthesis process.
Conducted mechanistic investigations to explore reaction pathways.
Achieved broad substrate scope with excellent functional-group tolerance.
Established that the reaction pathway involves radical-based C–S bond formation.
Demonstrated that the activation mode is likely through exciplex-type interactions.

Abstract

We report a visible-light-driven multicomponent strategy for the synthesis of S-functionalized imidazoles from readily available organic halides, isothiocyanates, and isocyanides. The method operates under mild, photocatalyst-free conditions and exhibits broad substrate scope with excellent functional-group tolerance. Detailed mechanistic investigations support a reaction pathway involving direct photoexcitation of in situ generated thiophenolate intermediates and subsequent radical-based C–S bond formation. This process is likely governed by exciplex-type interactions rather than preassembled electron donor–acceptor complexes. Overall, this work introduces a distinct photochemical activation mode for C–S bond construction and expands the synthetic toolbox for accessing sulfur-containing heterocycles.

Multicomponent Photochemical Assembly of C(sp 2 )–S Substituted Imidazoles via Exciplex Formation

Key Points

Abstract

Cite This Study