Time-resolved resonance raman spectra and decay kinetics of triplet anthracene in fluid media

Time-resolved resonance Raman spectra were observed with the pump/probe technique using two 7 ns pulsed lasers for octaethylporphinato Cu(II) [(OEP)Cu] and its isotopomers (OEP-meso-d 4 and OEP-lSN) in the lowest excited triplet state. Raman bands were assigned on the basis of depolarization ratios

Time-resolved resonance Raman spectra are obtained for the lowest excited triplet state T, and the radical cation of 5-dibenzosuberenol (DBCH-5-01). It is concluded, based on the large downshifts of the Raman bands assignable to the C=C stretch of the central ring, that the C=C bond is weakened mark

Resonance Raman spectra of the lowest excited triplet state of chlorophyll a are obtained in benzene and in methanol by pumping at 660 nm in the Q, band and pmbing at 460 nm which is close to the absorption maximum of the T, state. Tbe spectrum observed in polar methanol differs significantly from t

Tune-resolved resonance Raman spectra of the lowest trlplet smte of N.N,N'.N'-tetr~cthyl+phenylcnedumtnc fT~p~) were observed in solution at room tcmperaturc 4 new Raman band obscrvcd at 1530 cm-' was arslgned to