화학공학소재연구정보센터
Journal of Physical Chemistry, Vol.99, No.13, 4811-4819, 1995
Measurements of the Solute Dependence of Solvation Dynamics in 1-Propanol - The Role of Specific Hydrogen-Bonding Interactions
Time-resolved Stokes shift measurements (similar to 20 ps effective resolution) are used to measure the solvation times of 16 different probe solutes in a single solvent, 1-propanol (253 K). The solutes were chosen so as to provide a wide range of chemical structures and physical properties consistent with the requirements of strong fluorescence and high solvent sensitivity. Rather than exhibiting a continuous range of solvation times, the dynamics observed with these solutes indicated a division into two distinct classes. The majority (11) of the solutes were observed to fall into a "normal" category. The solvation times of these solutes span a relatively narrow range, 0.14-0.22 ns, times consistent with expectations based on nonspecific theories of solvation dynamics. The remaining five solutes, all simple aromatic amines, form a distinct group whose solvation dynamics is at least 2-fold faster than those of the "normal" solutes. The difference between these two classes of solutes appears to reflect differences in the nature of their hydrogen-bonding interactions with the solvent.