Rhodium(III)/Copper(II)‐Promoted trans‐Selective Heteroaryl Acyloxylation of Alkynes: Stereodefined Access to trans‐Enol Esters |
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| Authors: | Manh V. Pham Prof. Dr. Nicolai Cramer |
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| Affiliation: | Laboratory of Asymmetric Catalysis and Synthesis, EPFL SB ISIC LCSA, BCH 4305, 1015 Lausanne (Switzerland) http://isic.epfl.ch/lcsa |
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| Abstract: | Enol esters are versatile synthetic building blocks which can be elaborated by a wide variety of transformations. The classical synthesis by O‐selective enolate acylation often hampers control of the E/Z selectivity with highly substituted substrates. A rhodium(III)/copper(II)‐mediated process is reported to provide tetrasubstituted enol esters in a trans‐selective fashion. Overall, the reaction consists of a heteroaryl acyloxylation of alkynes. The process is initiated by a rhodium(III)‐catalyzed C2‐selective activation of electron‐rich heteroarenes, such as benzofuran, furan, and thiophene. Upon addition across an alkyne, a transmetalation to copper(II) enables reductive C? O bond formation. The transformation allows the three‐component couplings of heteroarenes, alkynes, and carboxylic acids. Application of the method in the functionalization of bioactive furocoumarin natural products is also described. |
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| Keywords: | bimetallic catalysis C H activation copper enol esters rhodium |
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