Scaled particle theory revisited: New conditions and improved predictions of the properties of the hard sphere fluid
Article Abstract:
The successful scaled particle theory (SPT) of hard particle fluids originally developed by Reiss, Frisch, and Lebowitz are revisited. The success of SPT6 and SPT7 for the pure component hard sphere fluid suggests that a similar extension of SPT for multicomponent hard sphere mixtures can be made.
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2004
User Contributions:
Comment about this article or add new information about this topic:
Through-bond indirect and through-space direct polar coupling 31P MAS NMR constraints for spectral assignment in the cubic 3 x 3 x 3 superstructure of TiP2O7
Article Abstract:
Issues concerning the reflection of the three-dimensional arrangement of P2O(sub 7)(super 4-) units in the TiP2O7 structure in various one- and two-dimensional 31P MAS NMR experiments are discussed. The 31P MAS NMR properties of the isostructural phases TiP2O7 and SiP2O7 are compared.
Publication Name: Journal of Physical Chemistry B
Subject: Chemicals, plastics and rubber industries
ISSN: 1520-6106
Year: 2000
User Contributions:
Comment about this article or add new information about this topic:
- Abstracts: Photoinitiated predissociation of the NO dimer in the region of the second and third NO stretch overtones. The anharmonic vibrational potential and relaxation pathways of the amide I and II modes of N-methylacetamide
- Abstracts: Thiol-derivatized AgI nanoparticles: synthesis, characterization, and optical properties. Kinetics of two-dimensional phase transitions of sulfide and halide ions on Ag(111)
- Abstracts: Covalent guest-framework interactions in heavy metal sodalites: structure and properties of thallium and silver sodalite
- Abstracts: Inhomogeneous distribution and collective diffusion of solution molecules in the nanochannel of mesoporous silica
- Abstracts: Characterization and reactivity of niobia supported copper oxide catalysts. Modeling experimental oscillations in liquid membranes with delay equations