The reaction mechanism of the gold-catalyzed synthesis of functionalized acenes via cascade [3,3]-oxo migration/[1,5]-H shift is documented by DFT calculations. Interestingly, the overall reaction machinery displays a notable exothermic profile and the pivotal role played by the metal center in the initial [1,3]-acyloxy migration of 1 was also discovered. Contrarily, contribution of the gold complex in the H shift was negligible as the energy profiles of the gold-based and metal-free protocols are very similar in the latest stage.
Bandini, M., Cera, G., Miscione, G.P. (2017). Unveiling the Reaction Machinery of the [AuI]-Catalyzed Synthesis of Substituted Acenes by a [1,5]-H Shift Cascade Reaction. CHEMCATCHEM, 9(2), 316-321 [10.1002/cctc.201601113].
Unveiling the Reaction Machinery of the [AuI]-Catalyzed Synthesis of Substituted Acenes by a [1,5]-H Shift Cascade Reaction
Bandini, Marco;Cera, Gianpiero;Miscione, Gian Pietro
2017
Abstract
The reaction mechanism of the gold-catalyzed synthesis of functionalized acenes via cascade [3,3]-oxo migration/[1,5]-H shift is documented by DFT calculations. Interestingly, the overall reaction machinery displays a notable exothermic profile and the pivotal role played by the metal center in the initial [1,3]-acyloxy migration of 1 was also discovered. Contrarily, contribution of the gold complex in the H shift was negligible as the energy profiles of the gold-based and metal-free protocols are very similar in the latest stage.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
