The origin of fluorescence from trans-trans diphenylbutadiene

Rcccikcd 12 h1.1y 1953 The fluorescence rehxntion kinetics from all-tins retinal in polsr nnd non-polar solvents have been investigated as a function of tempcraturc. An activrltion cnegy of ==I kcal/mole has been measured. Our results, in conjunction with pwious picosecond absorption measurcmeuts ma

A weak transient fluorescence (&f \* 0.0036 and r = 27 ns) has been detected by employing single photon counting methods from solutions of anthracene, 6.7X low5 M, and trans.trans-2,4-hexadiene, 1.76 M. This emission is tentatively assigned to the anthracene/l,3diene exciplex and appears to confirm

The appearance of two components in the decay of the emission of trans-stilbene solutions has been re-elamined b> an analysis of the time resolved fluorescence in the pica-and nanosecond r&on. above 273 K\_ The slow component, attributed to a return to the trans-o,eometry after initial photoisomeriz

The resonance Raman spectrum of all-trans-diphenylbutadiene in its lowest exited St state exited in resonance with the S1 + S,, absorption band at 650 nm in non-pohr solvents is reported\_ Three vldrational bands at 1572,1481 and 1165 Cm-l are observed. A possible assignment of the the 1481 cm-l the

The cation radicals of the three cis-tram isomers of I ,4\_diphenylbutadiene have been generated by pirradiation in a matrix at 77 K and in acetonitrile solution at room temperature by secondary electron transfer. The cation radicals exhibit two strong absorption bands, the more intense between 530