Wavelength dependent photoisomerization of bicyclo[3.1.0]hexenones

## Wavelength-Dependent Photochemistry of 4-Methoxybicyclo[3.1.0]hexenones. -A detailed mechanistic study of the photochemistry of bicyclic compounds (I) and (II), in combination with computational studies, points to a reasonable mechanism for the observed wavelength-dependent phenol formation. T

Ultraviolet irradiation of alloocimene (II) is known to give a-pyronene (Ij2 and a 1,2,4-triene (III).3 The concomitant formation of another photoisomer (IV) is now reported.4 This product,\* b.p. 61°/37 mm., was isolated by distillation in 14% yield,after irradiation (A> 250 mu) of a 5% hexane solu

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

Irradiation of 1-(o-tolyl)-3,4-benzobicyclo[3.1.0]hexenones (1) in benzene at 365 nm has resulted in clean conversion to 3-(o-tolyl)-1-naphthols (2) via 3-(o-tolyl)-1(2H)-naphthalenones. The reaction is suggested to occur mainly from (n, p\*) 3 state with a reaction rate higher than 10 10 s -1 .