RISM analysis of tetrachloride liquids
- 20 February 1987
- journal article
- research article
- Published by Taylor & Francis in Molecular Physics
- Vol. 60 (3) , 541-552
- https://doi.org/10.1080/00268978700100351
Abstract
Neutron diffraction measurements have been made for CCl4/SnCl4 liquid mixtures. The tetrahedral molecules have different sizes but the scattering from the central atom is identical. The results indicate a systematic effect of the anisotropy on the magnitude of the first two diffraction peaks and are in good agreement with the theoretical predictions obtained by solving the RISM integral equation using a hard core model in which the effective diameter of the chlorine atoms was evaluated from the Barker-Henderson criterion. We also discuss the main features of the interlocking arrangement of these molecules as shown in the various pair correlation functions and the possibility of using a two-fluid model for describing the intermolecular structure factor of these mixtures.Keywords
This publication has 12 references indexed in Scilit:
- A RISM analysis of neutron diffraction data for SiCl4/TiCl4and SnCl4/TiCl4liquid mixturesMolecular Physics, 1986
- A RISM analysis of structural data for tetrahedral molecular systemsMolecular Physics, 1983
- A ‘‘RISM’’ theory for multicomponent molecular fluidsThe Journal of Chemical Physics, 1981
- Structure factor of liquid vanadium tetrachlorideMolecular Physics, 1980
- Neutron diffraction studies of tetrachloride liquidsFaraday Discussions of the Chemical Society, 1978
- Thermodynamic and structural properties of liquids modelled by ‘2-Lennard-Jones centres’ pair potentialsMolecular Physics, 1977
- What is "liquid"? Understanding the states of matterReviews of Modern Physics, 1976
- Liquid carbon tetrachloride: Atom pair correlation functions from neutron and x-ray diffractionThe Journal of Chemical Physics, 1976
- The structure of molecular liquids by neutron scatteringAdvances in Physics, 1973
- Optimized Cluster Expansions for Classical Fluids. II. Theory of Molecular LiquidsThe Journal of Chemical Physics, 1972