The mercury-aqueous solution interface in the presence of hexafluorophosphate and fluoride ions

## Introduction This paper is concerned with two aspects of the properties of the electrodesolution interface. Firstly, it is a study involving two non-aqueous solvents, propylene carbonate (PC) and dimethylsulphoxide (DMSO). Both of these solvents have been the subject of a number of recent elect

~-Adsorption on polarized Hg electrode of formate ions from aqueous solutions of pore HCOONa \* ~kelltial capscity =s=IIccBIyn txwasstudied.Aoionspe&ca&o+onwasindimtedbythe catho+~0fpo~tial0f~chargewith inukase in bulk4ectroiytt activity. Variation of charge due to ~ur&&eacessof$od&miono(T'+ 2, F)an

Ahtract-Coadsorption of perchlorate ions and 3-methyl-isoquinoline molecules at the mercury-aqueous solution interface results in the formation of a condensed film. The process of ClO; incorporation (or removal) is very slow. Characteristic relaxation times (about 10-l s) are several orders of magni

Previously I we studied the effect of temperature on the adsorption of C1-ions on mercury from aqueous HC1 solution in the 25°-60°C region. The analysis of the results suggested that the specific adsorption of C1-ions decreases with increasing temperature; in particular this was indicated by a linea