ol0473694_si_001.pdf (325 kB)
W(CO)5(L)-Catalyzed Formal Cope Rearrangement of Allenyl Silyl Enol Ethers
journal contribution
posted on 2005-04-14, 00:00 authored by Tomoya Miura, Koichi Kiyota, Hiroyuki Kusama, Nobuharu IwasawaOn treatment of 5-siloxyhexa-1,2,5-trienes with a catalytic amount of W(CO)6 under photoirradiation, formal Cope rearrangement proceeded to
give 2-siloxyhex-1-en-5-ynes in good yield. The electrophilic activation of the allenyl moiety by W(CO)5 triggers the intramolecular attack of the
silyl enol ether in a 6-endo manner to produce a cyclohexenyl tungsten species. Carbon−carbon bond cleavage occurs by electron donation
from the anionic W(CO)5 into the silyloxonium moiety to afford the products with regeneration of the W(CO)5(L).