Ana Escribano-Cuesta scite author profile

1,6-Enynes with electron-donating substituents at the alkyne undergo gold(I)-catalysed single cleavage skeletal rearrangement, whereas substrates with electron-withdrawing substituents evolve selectively to double cleavage rearrangement. Theoretical calculations provide a qualitative rationale for these effects, and suggest that bicyclo[3.2.0]hept-5-enes are involved as intermediates. We provide the first X-ray structural evidence for the formation of a product of this class in a cycloisomerisation of a 1,6-enyne.

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Synthesis of the tetracyclic core skeleton of the lundurines by a gold-catalyzed cyclization

Ferrer

2009

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Gold‐Catalyzed Reactions of 1,5‐ and 1,6‐Enynes with Carbonyl Compounds: Cycloaddition vs. Metathesis

Escribano-Cuesta

López‐Carrillo

Janssen

et al. 2009

Chemistry A European J

103

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Encapsulation Studies of Cationic Gold Complexes within a Self‐Assembled Hexameric Resorcin[4]arene Capsule

et al. 2013

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As the field of supramolecular catalysis develops, a sound fundamental understanding of the catalytic assemblies used will be essential. There is a lack of knowledge regarding systems based on transition‐metal catalysts as guests of supramolecular capsules. We investigate the inclusion behavior of gold complexes based on well‐known cationic Au(I) catalysts within a self‐assembled hexameric resorcin[4]arene capsule. The results shed light on the nature of the encapsulated species and the way in which those species are encapsulated. We introduce an encapsulation methodology that functions through the transient introduction of an excess of water. Through small modifications in the encapsulation methodology, we show that the inclusion process can be controlled to give different encapsulated species stemming from the same gold(I) precursor.

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Gold‐Catalyzed Cyclizations of Alkynes with Alkenes and Arenes

Echavarren

Muratore

López‐Carrillo

et al. 2017

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