Electrochemical studies with tin electrodes in citric acid solutions

There are wide discrepancies in the reported current density values (ti p and i0,~) obtained from potentiodynamic studies on lead in sulphuric acid solutions . Furthermore, it is well known that preparative procedures exert a marked influence on the data obtained for planar electrodes. The present i

A~traet--CO~ reacts in acid solutions with chemisorbed hydrogen on platinum in the potential range of Eh = 0-250 mV to form a chemisorption product of reduced COs (perhaps CO). The rate of reduction on bright platinum at room temperature is very slow, taking more than 2 min at Eh = 0 for the total

km dissolution as well as hydrogen evolution was studied in HCI and HBr acetonitrile solutions in a concentration range between 2.8 x IO-' M and 9.8 x 10m4 M. Halide concentration was changed by adding lithium halide to some of the previous solutions. Measurements were performed at 00°C. Current ef

The effect of pH on the passivity of Sn has been investigated in buffered (phthalate-borate, and citrate phosphate buffer series), and in unbuffered phosphate solutions, using the cyclic voltammetric technique. Two anodic peaks; the first being more pronounced than the second, and one cathodic peak