The charge distribution at the zinc oxide-electrolyte interface

The time evolution of the pulsed-laser-induced photopotentials of pure and cobalt-sensitized ZnO electrodes is analyzed after 365 and 640 nm excitations. This analysis, as a function of various parameters, enables a determination of the influence of Co\*+ ions and excitation wavelength on the kinet

The potential distribution at the silicon/electrolyte interface was studied in HF solutions using capacitance measurements in conjunction with impedance measurements over a wide frequency range. The electrode impedance was sensitive to the reactions occurring during anodic polarization. The n silico

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

A calorimetry study of hematite surface reactions is reported, with special emphasis on the estimation of the electrostatic contribution to the enthalpy of charging. The calorimetry titrations were performed outside the point of zero charge region where the electrostatic contribution is significant.