Abstract: | Abstract Current-potential response of a small interface formed between two immiscible solutions of electrolytes is examined. The diameter of the contact area made in a thin glass wall separating two solvents is approximately 130 μm. Ion transport across the nitrobenzene-water interface is studied by addition of probe semi-hydrophobic ions such as tetramethylammonium, tetraethylammonium, picrate, choline and dodecylsulfate to either aqueous or nonaqueous phase. The voltammetric behavior observed with the microinterface generally resembles that of a solid microelectrode of a similar radius. The contribution of ohmic drop becomes less significant with decrease of the interface area. This phenomenon permits voltammetric and amperometric measurements without using a potentiostat, and the solvent resistance is of a lesser problem. |