Prediction of the phase diagram of rigidmolecules
- 23 August 1993
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 71 (8) , 1200-1203
- https://doi.org/10.1103/physrevlett.71.1200
Abstract
An integral-equation approach combined with molecular dynamics simulations based on the Girifalco spherical intermolecular potential has been used to predict the phase diagram for rigid molecules. The boundary of the liquid-vapor coexistence region and the location of freezing and melting lines have been sketched out. The liquid phase is only observed in a very narrow temperature range compared with atomic systems (e.g., the rare gases). Unfortunately, the dense fluid is predicted to exist above ∼1800 K, which is sufficiently high that the molecule may be unstable.
Keywords
This publication has 26 references indexed in Scilit:
- Phase diagram of simple fluids: a comprehensive theoretical approachJournal of Physics: Condensed Matter, 1993
- Molecular-dynamics investigation of orientational freezing in solidPhysical Review B, 1992
- Phase transitions in two-dimensional fluids with internal quantum statesPhysical Review Letters, 1991
- Crystal structure and bonding of ordered C60Nature, 1991
- Molecular dynamics simulations of solid buckminsterfullerenesThe Journal of Physical Chemistry, 1991
- Heats of sublimation from a polycrystalline mixture of carbon clusters (C60 and C70)The Journal of Physical Chemistry, 1991
- Solid C60: a new form of carbonNature, 1990
- Block Density Distribution Function Analysis of Two-Dimensional Lennard-Jones FluidsEurophysics Letters, 1988
- Direct determination of phase coexistence properties of fluids by Monte Carlo simulation in a new ensembleMolecular Physics, 1987
- A computer simulation study of the melting and freezing properties of a system of Lennard-Jones particlesMolecular Physics, 1987