Effect of methyl and halogen substituents on the decay of singlet excited benzenes

Flyorescence decay times of the di-, tri-, tetra-and pentwnethyl benzenes and the three isomeric difiuorobenzencs have been rncnsured at low pressures. The substitucnt effects of CH3+roups and F-atom (in benzene) on the nonrndiativc rate ofrhc "isolated" ascited singlet molecule are briefly discusse

Kcccivcd 3 .I une 1983 The S;t -So fluorccccnce spectra and qusntum yields and the .Sz lifetimes of ~.~,3,3-tctr~metily~ind~nethione (TUIr) ha&e been mca.urcd in several sotventc using a synchronously pumped picosecond dye laser excitation system. The S, nonradhtkc decay rate is ntsrkedi) sohent dcp

It is shown that methyl substitution in benzene increases (T. v-mixing to an extent which is readiLy observable in the intrinsic phcsphorescence lifetime. It is also shown that C-H vibrational modes which are esternal to the benzene ring (i. e. in the CH3 group) contribute to phosphorescence quenchi

The effect of substituents on the activation energy for primary dissociation processes in the molecular ions of mono-andparu and meta di-substituted benzenes has been examined. Where the daughter ion retains the substituent group, variation of the energy of activation derives from a combination of t