Electrical double layer at the peritoneal membrane/electrolyte interface

The interfacial properties of two hydrous oxides of manganese, namely an amorphous variety and a poorly crystalline synthetic birnessite, in different electrolyte media, have been studied by using a batch potentiometric titration procedure with a 72-h equilibration period. The data obtained by this

Differential-capacitance/potential curves were measured at the interface between mercury and dilute aqueous solutions of HClO,, NaClO,, NaOH, CH,COOH and NH,OH. In the potential region near the zero-charge potential, the double-layer behaviour of these systems is in agreement with Grahame's theory.

The Gouy-Chapman-Stern model (GCS) has been extended to the case of the metal-solid electrolyte interface in which the positions of charges in the electrolyte are discrete. Our model allows mobile positive and negative charges to move freely parallel to the metal electrode surface, but constrains th

Measurements have been made of the double layer capacity at the polymer-water interface. The measurements suggest that the major contribution to the capacity arises from a diffuse layer of charge in the polymer phase.