Electric structure of the interface in an electrolyte near the critical point

The standard HNC/MSA calculation or the ion distnburion fails to describe Lhe packing in a sand layer seen m MC calculations. We describe an improved uealmea~ which employs the panicle-particle dircfl corrclaGon run&on for non-ncutrd elexrolyle compositions as found near the surface

In recent years, optically pumped xenon-129 has received a great deal of attention as a contrast agent in gas-phase imaging. This report is about the other NMR active xenon isotope (i.e., xenon-131, S ‫؍‬ 3 2 ) which exhibits distinctive features for imaging applications in material sciences that ar

The consrrqurnccs of 3ssignin\_r different size Stern layers to the anions and cations within a simple Debye-Hiickcl theory of the diffuse clcclrical double layer arc csmnined. Analytic cslmssions for fhc mean clcctrosttltic potential and salvation timcc brtwccn two char@ surfaces are obmined and fo

Phenomenological equations of state (EOS) for 6uids near their critical point have been obtained using literature compression factor data, Z c ‫؍‬ P c V c /(nRT c ) ‫؍‬ 0.40 to 0.10 in (P c , V c , and T c are the pressure, volume per nmole, and the absolute temperature of the 6uid at the critical p