15min:

JASPER R. CLARKSON AND TIMOTHY S. ZWIER, Department of Chemistry, Purdue University, West Lafayette, IN 47907.

Stimulated emission pumping (SEP)-population transfer spectroscopy has been used to place upper and lower bounds to the barrier heights for conformational isomerization between two of the three conformational minima of phenol-ethanolamine van der Waals complexes. These two minima differ in the point of attachment of the phenol OH hydrogen bond to the oxygen atom of ethanolamine. The thresholds for X Y and Y X isomerization are combined to determine the relative energies of the X and Y minima. Comparison of experimental data to ab initio computed barriers will be made, leading to the identification of the low-energy isomerization pathways linking the minima. Despite adequate sensitivity, isomerization involving the third minima, in which phenol acts as H-bond donor to the NH₂ group and as acceptor to the ethanolamine OH, is not observed. This cyclic solvent configuration exhibits a fluorescence lifetime 3 times shorter than the other two conformations of the complex, with red-shifted fluorescence emission. The shortened fluorescence lifetime and red-shifted emission were attributed to excited state H-atom transfer as a non-radiative energy transfer process.