The photochemical isomerization of I-acetylbicyclo[4.1.0] heptane an intramolecular rearrangement

## Abstract The kinetics of the gas‐phase decomposition of bicyclo[4.1.0]heptane has been studied over the temperature range of 708–769 K at pressures between 1 and 17 torr. Isomerization to 1‐methylcyclohex‐1‐ene, methylenecyclohexane, and cycloheptene accounts for 96–98% of the primary reaction p

Any reaction that results in ring formation can be of considerable potential use in organic synthesis. It has been recognized for several years that a carbon-carbon double bond can experience insertion into a carbon-lithium bond resulting in the formation of a new carbor carbon u linkage.' If the do

Pentacyclic (CH)a hydrocarbon 1 can be viewed not only as the most highly condensed valence isomer of cyclooctatetraene, but also as a formal (2+2) dimer of tetrahedrane. The effective cyclic conjugation of two bicyclo[l.l.O]butsne rings in 1 should form the basis for interesting spectral properties

Irradiation (A>3(Y0 nm) of dibenzocycloocta-l,4-diene-6-diazo-3,7-dione in methanol gave a bicyclic lactone as the sole isolable product. This can be explained in terms of intramolecular lactonization by attack of the hydroxyl group (produced as a result of the photoaddition of methanol on the excit