Photochemical Rearrangement and Fragmentation of Bicyclo[2.2.2]octadienones

While the most common photochemical transformation of medium-sized monocyclic S,y-unsaturated ketones involves a 1,3-acyl shift and migration of the allylic double bond,' 3-cyclohexenones such as t have been observed3 to photochemically rearrange with 1,2-acyl migration, to yield conjugated cyclopro

Bicyclo[3.2.l]octadienones with the general structure & photoisomerize to ketenes 4 and give products derived therefrom.ls3 The corresponding 3,4-benzo&tadienones 2 undergo reversible 1,3-acyl shifts ($ti,$).4 We now wish to report that the other possible (i.e., 6,7-) benzo derivatives of &, undergo

Intramolecular cyclization of carbon radicals to carbonyl groups was carried out on bicydo[2.2.21and bicyclof4.2.Oloctenones. An unexpected ring expansion product 19, produed by /3-scission of the intermediate alkoxyl radical 22, was observed. The j3,ysituated double bond of the bicyclic ketones app

The dramatic photochemical rearrangements of santonin and other 2,5-cyclohexadienones 3 contrast sharply with the reported photodimerizations of 2-cyclohexenones. It has been generally assumed that the complex photochemical rearrangements of the 2,5-cyclohexadienones are not possible with simple E-c

The enantioselective 0t-deprotonation-rearrangement of bicycloalkene-derived epoxides (4, 9 and 13) to ketones (8, 12 and 16 respectively) is described.