Conformational relaxation in the excited electronic states of benzil and naphthyl

A rule originaliy due to Wakh for predicting the shapes of electronicany excited moleeuks can afsc be derived from structure theory based on the second-order him-Teller effect. The fast excited state of a moIecuIc containing n electrons should belong co the same point grcup as the ground state of a

The fluorescence of 2-(3'-hydroxy-2'-naphthyl) bcnzimidazole in solution shows two bands at ~400 and 600 MI, respectively assigned to the open-enol form bound to the solvent, and to the phototautomer produced from the closedenol form. Both enol species coexist in the ground state. A fluorescence ris

Theoretical analysis of the time-dependent triplet-triplet absorption spectrum of anrhracene is cvried out in terms of the Huanp-Rhys spectral function which describes the absorption of molecules thermally equilibrated, due to fast intramolecular processes, al some effective tempera!urc r\*(r) depen

Paraterphenyl (PTP) in solution is supposed to undergo a conformational relaxation process from the twisted ground state to the metastable planar configuration of the first excited electronic state. An almost complete steric hindrance of this torsional relaxation process could be detected for the te