Supersonic jet fluorescence spectroscopy of 1,3-benzodioxole: A non-planar (C2) structure in S0

Phthalan has been shown, previously, from the observation of far-infrared puckering transitions, to have a planar skeleton in respect to this puckering motion in the S, electronic state. Supersonic jet fluorescence spectra show, however, that the 1,3-carbon atoms are twisted out-of-plane in a Cz con

Single vibronic level fluorescence spectra of tram-2-fluorostyrene have been observed in a supersonic jet. Levels of the C( 1 )-C(a) torsional vibration up to u= 8 are fitted to a potential function which shows that the molecule is quasi-planar with a barrier of I 5 k 4 cm-' .

Both fluorescence excitation and dispersed fluorescence spectra of 2-aminobenzotrifluoride in a supersonic jet show quite extensive vibrational structure due to the CF,-torsional motion in the S, and So electronic states, respectively. This structure has been assigned and results in CF,-torsional po