Wp. Huskey, MODEL-CALCULATIONS OF ISOTOPE EFFECTS USING STRUCTURES CONTAINING LOW-BARRIER HYDROGEN-BONDS, Journal of the American Chemical Society, 118(7), 1996, pp. 1663-1668
Isotope effect calculations (H/D and O-16/O-18) were carried out for a
series of vibrational models containing a double-minimum potential fo
r a hydrogen bond. The calculations showed the maximum hydrogen isotop
e effects for models in which the zero-point vibrational levels (for H
) for the motion governed by the double-minimum potential were very ne
ar the energy of the barrier for the potential. The hydrogen isotope e
ffects also showed a strong dependence on the energy difference betwee
n the wells of the double-minimum potential. Isotopic entropies were c
alculated for the H/D isotope effects, and were found to be dependent
on the height of the barrier in the potential. Oxygen isotope effects
were all inverse for reasons having little to do with the presence of
double-minimum potentials in the models. The results have implications
for studies of low-barrier hydrogen bonds.