Conductance of Cs+ ion in water: Molecular dynamics simulation

The continuum theory of Hubbard-Onsager predicts for the friction coefficients the following behavior: >0 and /P<0. In contrast to Hubbard-Onsager theory, experimental observations on Cs⁺ ion in water show that at low temperatures <0 and /P>0. To explain the observed behavior of Nakahara et al. proposed the passage through cavities (PTC) mechanism. We performed a molecular dynamics computer simulation to determine if the PTC mechanism is responsible for the observed behavior of . No passage through cavities was observed. Molecular dynamics computer simulations were performed on Cs⁺ ion in water at temperature of 268 K and densities of 1.00 and 1.083 g-cm^–3. Our results indicate that the observed behavior of for Cs⁺ ion is related to the difference in the reorientation times of water molecules in the solvation shell and in the bulk.