Generation and Trapping of Cyclopentenylidene Gold Species: Four Pathways to Polycyclic Compounds

Generation and Trapping of Cyclopentenylidene Gold Species: Four Pathways to Polycyclic Compounds

Cyclopentenylidene gold complexes can easily be formed from vinyl allenes through a Nazarov-like mechanism. Such carbenes may transform in four different ways into polycyclic frameworks: electrophilic cyclopropanation, C−H insertion, C−C migration, or proton shift. We have studied the selectivity of...

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Veröffentlicht in:Journal of the American Chemical Society 2009-03, Vol.131 (8), p.2993-3006
Hauptverfasser: Lemière, Gilles, Gandon, Vincent, Cariou, Kevin, Hours, Alexandra, Fukuyama, Takahide, Dhimane, Anne-Lise, Fensterbank, Louis, Malacria, Max
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Sprache:eng
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Zusammenfassung:Cyclopentenylidene gold complexes can easily be formed from vinyl allenes through a Nazarov-like mechanism. Such carbenes may transform in four different ways into polycyclic frameworks: electrophilic cyclopropanation, C−H insertion, C−C migration, or proton shift. We have studied the selectivity of these different pathways and used our findings for the expedient preparation of valuable complex molecules. An application to the total synthesis of a natural product, Δ9(12)-capnellene, is presented. DFT computations were carried out to shed light on the mechanisms.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja808872u