Time-resolved resonance Raman spectra of the lowest triplet state of N,N,N′,N′-tetramethyl-p-phenylenediamine in solution

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

Optical spectra (1 to 6 eV) of the neutral electron donor-acceptor complex TMPD-CA have been obtained in different solvents includins polar ones such as acetonitie\_ The optical spectra. the dielectric constant and the ESR absorption have been studied in detail as a function of temperature, in the r

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

Optically detected magnetic resonance (ODMR) techniques are used to determine the orbital asQnment of the phosphorescent triplet state of p-benzoquinone in the condensed phase. The principal spin-orbit coupl% routes are discussed in terms of the observed spin-vibronic activity.

We report the first observation or the resonanoeenhanced triplet&ate Raman scattering in a molecular crystal. Specifically, the resonnnce+nhanccd Raman ratterins from the T1 s&te of naphthalene in the environment of the n~phthalene:2(1,4~~od~te~~uoroben~ne~ crystalline complex is observed by excitin