What question did this study set out to answer?

This research aims to develop a unified method for site-selective annulation of coumarins with diphenylacetylene.

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April 10, 2026

Regiodivergent Pd-Catalyzed Annulation of Coumarins: Directing-Group-Controlled Coumarin-Fused N-Heterocycles

Key Points

This research aims to develop a unified method for site-selective annulation of coumarins with diphenylacetylene.
Utilized palladium-catalysis for annulation reactions
Examined the effect of different anilines and aminopyridines on site selectivity
Conducted reactions under air without stoichiometric oxidants
Achieved good to excellent yields of annulated products
Demonstrated complete switching of C5/C3 selectivity based on directing groups
Confirmed the role of coordinating nitrogen partners in directing site of activation

Abstract

A unified, palladium-catalyzed annulation of 4-bromocoumarins with diphenylacetylene, enabling site-selective access to two distinct classes of coumarin-fused N-heterocycles, is developed. The coordinating nitrogen-based partner precisely dictates the site of activation: aniline directs peri- (C5-H) activation, while 2-aminopyridine promotes vinylic (C3-H) activation. Both transformations proceed efficiently under air without the need for stoichiometric oxidants or preinstalled directing groups. The method tolerates a broad range of anilines, aminopyridines, and internal alkynes, affording annulated products in good to excellent yields. In this system, the directing group solely dictates Pd-catalyzed C5-H vs C3-H selectivity via 5-/6-membered intermediates. This is the first directing-group-controlled regiodivergent Pd-catalyzed C-H annulation of coumarins, enabling complete C5/C3 selectivity switching in heteroaromatics.

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Regiodivergent Pd-Catalyzed Annulation of Coumarins: Directing-Group-Controlled Coumarin-Fused N-Heterocycles

Key Points

Abstract

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