What question did this study set out to answer?

The aim is to develop a method for synthesizing 1,3-diamines from alkenes via TTEnT and 1,2-HAT processes.

April 11, 2026

Photoinduced TTEnT-Mediated Carbonimination of Alkenes via 1,2-Hydrogen Atom Transfer of Amidyl Radicals: Synthesis of 1,3-Diamines

Key Points

The aim is to develop a method for synthesizing 1,3-diamines from alkenes via TTEnT and 1,2-HAT processes.
Utilized photocatalytic processes for carbonimination of alkenes
Selected specific bases and polar solvents to facilitate the 1,2-HAT step
Performed mechanistic studies to understand the reaction pathways
Successfully achieved selective carbonimination, minimizing diamination side products
Demonstrated broad substrate scope with various oxime esters and alkenes
Provided examples of late-stage functionalization for bioactive molecules

Abstract

Herein, we report a photocatalytic carbonimination of alkenes for synthesizing 1,3-diamines, enabled by triplet-triplet energy transfer (TTEnT) catalysis and a formal 1,2-hydrogen atom transfer (1,2-HAT) of N-centered radicals. Through careful selection of the base and polar solvent to facilitate the 1,2-HAT step, selective carbonimination of alkenes is achieved, effectively suppressing the competing diamination pathway previously reported. This method demonstrates a broad substrate scope across a variety of oxime esters and alkenes, including examples of late-stage functionalization of bioactive molecules. Preliminary mechanistic studies support the involvement of a TTEnT process in the reaction.

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