Nonlocal electrostatic approach to the double layer and adsorption at the electrode- electrolyte interface

The results of a study on the temperature dependence of differential capacity in alkali nitrites, perchlorates and thiocyanates are given. The adsorption of carbamide, phthalimide and benzidine sulphate on platinum electrodes in a thiocyanate melt was studied by impedance method. A faradaic process

## Abstract The study of the structure of the electrode–solution interface usually involves the measurement of the differential capacity–potential characteristics of the system. In order to obtain the double‐layer parameters from these data, integration and differentiation procedures are required a

simple model is developed to describe wave phenomena at electrode/electrolyte interfaces. The electrochemical kinetics include a negative faradaic impedance in order to provide the necessary feedback between the interfacial faradaic current and the local currents flowing in the electrolyte solution.

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.