Adsorption of 2,3-dimethylpyridine at the mercury/ electrolyte interface

Recently, there has been muchinterest in the useof trifluoromethanesulfonic acid as anelectrolyte in advanced fuel cell systems because of the enhanced rate of oxygen reduction in this medium. In order to elucidate this characteristic from a double layer point of view, the present work was undertake

The adsorption of M-naphthalenesulfonate, B-naphthalenesulfonate and 1, 5-naphthalenedisulfonate ions on mercury from an aqueous solution at constant ionic strength has been investigated by measurement of the double layer capacity as a function of concentration. The adsorption can be represented by

The adsorption and the changes in the interfacial composition of octanoic acid at the mercury/electrolyte interface was studied by measuring the differential capacitance at different concentrations of the supporting electrolyte, at various supporting electrolyte systems and at various temperatures.

The adsorption and interfacial orientations of cytidine sulphate were studied by out-of-phase oc voltammetry. The adsorption equilibrium and its attainment have been investigated as a function of various parameters such as pH, adsorption potential, adsorption time, temperature and the bulk concentra