- Direct β- and γ-C(sp3)?H Alkynylation of Free Carboxylic Acids**
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In this study we report the identification of a novel class of ligands for palladium-catalyzed C(sp3)?H activation that enables the direct alkynylation of free carboxylic acid substrates. In contrast to previous synthetic methods, no introduction/removal of an exogenous directing group is required. A broad scope of acids including both α-quaternary and challenging α-non-quaternary can be used as substrates. Additionally, the alkynylation in the distal γ-position is reported. Finally, this study encompasses preliminary findings on an enantioselective variant of the title transformation as well as synthetic applications of the products obtained.
- Ghiringhelli, Francesca,Ghosh, Kiron Kumar,Uttry, Alexander,van Gemmeren, Manuel
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supporting information
p. 23127 - 23131
(2020/10/15)
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- Intramolecular insertions into unactivated C(sp3)-H bonds by oxidatively generated β-diketone-α-gold carbenes: Synthesis of cyclopentanones
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Generation of reactive α-oxo gold carbene intermediates via gold-catalyzed oxidation of alkynes has become an increasing versatile strategy of replacing hazardous diazo carbonyl compounds with benign and readily available alkynes in the development of efficient synthetic methods. However, one of the hallmarks of metal carbene/carbenoid chemistry, i.e., insertion into an unactivated C(sp3)-H bond, has not be realized. This study reveals for the first time that this highly valuable transformation can be readily realized intramolecularly by oxidatively generated β-diketone-α-gold carbenes using ynones as substrates. Substrate conformation control via the Thorpe-Ingold effect is the key design feature that enables generally good to excellent efficiencies, and synthetically versatile cyclopentanones including spiro-, bridged, and fused bicyclic ones can be readily accessed.
- Wang, Youliang,Zheng, Zhitong,Zhang, Liming
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supporting information
p. 5316 - 5319
(2015/05/13)
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