Methane in Water: An Ab Initio Study

Abstract

In preceding publications we discussed some properties of pure water in condensed phases using an ab initio approach. Here this study is used as a basis of comparison for analysing the behaviour of water as a solvent in the presence of an apolar molecule. Our analysis is focused on the process of organization of the hydrogen bonding network around the solute. For this purpose we perform some ab initio calculations for a system of 32 water molecules and one methane molecule at 300 K; in particular, the average molecular dipole moment of water is determined and the result is compared with that of pure water. Next the attention is switched to the methane molecule; related properties such as excluded volume and sphericity of its shape are illustrated and discussed. A comparison with results obtained using classical approaches suggests that some classical models of water can be considered to be still valid when they are used to analyse the water-methane system.