What question did this study set out to answer?

The study aims to develop a copper-catalyzed method for constructing functionalized macrolactones using hemiketal peroxides and N-nucleophiles.

April 27, 2026

Copper‐Catalyzed Alkoxy Radical‐Mediated Ring‐Expansion/C(sp 3 )–N Coupling of Hemiketal Peroxides with N ‐Nucleophiles: A Route to Functionalized Macrolactones

Puntos clave

The study aims to develop a copper-catalyzed method for constructing functionalized macrolactones using hemiketal peroxides and N-nucleophiles.
Developed copper-catalyzed alkoxy radical-mediated ring-expansion reaction
Included diverse nitrogen nucleophiles like amides, indoles, and pyrazoles
Examined the influence of the leaving group in hemiketal peroxides on the reaction efficiency.
Successfully synthesized medium-sized and macrolactones with broad substrate scope
Achieved high efficiency with various nitrogen nucleophiles
Demonstrated the importance of the leaving group in hemiketal peroxides for reaction success.

Resumen

A copper‐catalyzed alkoxy radical‐mediated ring‐expansion/C(sp 3 )–N coupling of hemiketal peroxides with N ‐nucleophiles has been developed. This protocol allows the construction of functionalized medium‐sized and macrolactones under mild redox‐neutral conditions, exhibiting broad substrate scope and good functional group tolerance. The ring‐expansion amination proceeds efficiently with diverse nitrogen nucleophiles, including amides, sulfamides, indoles, indazoles, and pyrazoles, providing a concise and step‐economical strategy for the synthesis of structurally diverse amino‐substituted lactones. Control studies reveal that the nature of the leaving group in hemiketal peroxides is crucial for the success of this reaction.

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Copper‐Catalyzed Alkoxy Radical‐Mediated Ring‐Expansion/C(sp 3 )–N Coupling of Hemiketal Peroxides with N ‐Nucleophiles: A Route to Functionalized Macrolactones

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