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Heterocycles by Consecutive Multicomponent Syntheses via Catalytically Generated Alkynoyl Intermediates

Jonas Niedballa, Thomas J. J. Müller

2022Catalysts24 citationsDOIOpen Access PDF

Abstract

Multicomponent processes are beneficial tools for the synthesis of heterocycles. As densely substituted bifunctional electrophiles, ynones are essential intermediates by applying cyclocondensations or cycloadditions in numerous heterocycle syntheses. The respective alkynoyl intermediates are generally accessible by palladium-, copper- and palladium/copper-catalyzed alkynylation. In turn, the mild reaction conditions allow for a fast and versatile entry to functional heterocycles in the sense of consecutive multicomponent processes. This review collates and presents recent advances in accessing thirteen heterocycle classes and their applications by virtue of catalytic alkynoyl generation in diversity-oriented multicomponent syntheses in a one-pot fashion.

Topics & Concepts

ElectrophileChemistryPalladiumBifunctionalCombinatorial chemistryAlkynylationCatalysisOrganic chemistryCatalytic Alkyne ReactionsSynthesis and Characterization of PyrrolesCatalytic C–H Functionalization Methods
Heterocycles by Consecutive Multicomponent Syntheses via Catalytically Generated Alkynoyl Intermediates | Litcius