What question did this study set out to answer?

This work aims to develop a ligand-controlled method for the chemoselective and enantioselective cyclization of enynes.

May 16, 2026

Ligand‐Controlled Chemoselective and Enantioselective Cyclization of Enynes With Aroyl Chlorides

Key Points

This work aims to develop a ligand-controlled method for the chemoselective and enantioselective cyclization of enynes.
Utilized palladium catalysis to facilitate cyclization reactions.
Implemented a chiral ligand for enantioselective synthesis.
Conducted DFT calculations to understand ligand effects on reaction pathways.
Successfully achieved chemoselective cyclization of enynes with aroyl chlorides.
Demonstrated enantioselective synthesis of cyclopropane-fused heterocycles with significant yields.
Highlighted late-stage modifications of acid chlorides from pharmaceuticals, underscoring synthetic utility.

Abstract

ABSTRACT Herein, we report a palladium‐catalyzed, ligand‐controlled approach for the switchable construction of cyclopropane‐fused heterocycles and seven‐membered N‐heterocyclic compounds via the chemoselective cyclization of enynes with aroyl chlorides. Furthermore, enantioselective synthesis of cyclopropane‐fused heterocycles was achieved using a chiral ligand. To highlight the synthetic utility, late‐stage modifications of acid chlorides derived from natural products and pharmaceuticals were demonstrated. DFT calculations reveal that the ligands play an important role in the chemoselective cyclization process by favoring either β‐H or β‐C elimination of the alkyl‐Pd(II) intermediate.

Ligand‐Controlled Chemoselective and Enantioselective Cyclization of Enynes With Aroyl Chlorides

Key Points

Abstract

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