Surface conductance of metal oxides in electrolyte solutions

The Nernstian approach to the description of the metal/electrolyte interface is compared with descriptions based on the surface complexation models. Differences are from the assumptions made about the dependence of chemical potential of the potential determining ions (p.d.i.) at the solid surface on

We report a restricted primitive model calculation of the double-layer interaction between two uniformly charged surfaces immersed in an electrolyte solution, where the anisotropic hypernetted chain approximation is utilized for the pair correlations. The strong, attractive pressure contribution res

The surface tensions of aqueous salt solutions of LiCl, KCl, and CsCl were measured as a function of concentration and temperature. By analyzing the results, the thermodynamic quantities of surface formation such as entropy (⌬s), Helmholtz free energy (⌬ f ), and energy of surface formation (⌬u) wer

Density functional theories of solvation forces in charged fluids are extended to treat electrolytes consisting of finitesized ions and neutral solvent particles. The resulting forces display pronounced oscillations whose magnitude is a strong function of the bulk density of the neutral species.

The electrical conductivity of bilayer lipid membranes (BLM) of oxidized cholesterol has been measured separately in bathing solutions of sodium sulphate, sodium chloride, sodium bromide, sodium iodide and also in bathing solutions of iodine and iodine containing these salts. An attempt has been mad