Intermolecular Interaction of Fluoro Propanes

Abstract

Abstract Intermolecular interaction is investigated for an isomeric pair of fluoro propane, CH3CF2CF3 (HFC–245cb, CB) and CH2FCF2CHF2 (HFC–245ca, CA). CB has a larger dipole moment than CA. This may suggest that CB has a larger intermolecular attractive interaction than CA; the reverse is, however, found from the experimental data: normal boiling point, critical temperature, and heat of vaporization. Systematic ab initio calculations have been done for both CB dimer and CA dimer, and confirmed that the former has a smaller attractive interaction than the latter. On the basis of these calculations, analytic functions have been constructed as the pair potential models for the two isomers. Each of these models has 11 Lennard-Jones and Coulomb interaction sites in the molecule. The present models can explain why CB dimer has a smaller attractive interaction than CA dimer, and they will easily be extended to a series of fluoro propanes, and make it possible to perform the systematic molecular simulation studies.