Photohydrolysis of 6-methoxyquinoline in aqueous acetonitrile: pOH in alkaline acetonitrile-water solutions

The anodic dissolution of pure iron in acetonitrile-water solutions with varying concentrations of acetonitrile and varying pH has been investigated. Potentiodynamic measurements with different sweep rates have been done. Acetonitrile was shown to act as an interface inhibitor for the dissolution of

In the presence as well as in the absence ofacetonitrile the hydrogen evolution reaction was found to follow a Volmer-Heyrovsky mechanism with a minor contribution from the Tafel reaction in parallel. Contribution from surface diffusion between equally spaced step lines were found in both cases. The

Iron microelectrodes have been used to study the dissolution kinetics in acidic perchlorate solutions, in the absence and in the presence of acetonitrile. The results compare well with previous measurements on a conventional sized rotating disc electrode. The advantages of using microelectrodes are

The rate of dissolution of rotating copper discs in acidified copper(H) solutions prepared in an acetonitrile-water solvent (mole fraction acetonitrile = 0.25) was measured in the temperature range 27C-360K. The rate of dissolution was found to be proportional to the square root of the rotation spee