© 2015 The Electrochemical Society. It is shown by cyclic voltammetry and electrochemical impedance spectroscopy that polarization treatment of carbon electrodes affects the kinetics of the VII/VIII and the VIV/VV redox reactions. After treatment at potentials more negative than ~-0.5 V (sat. Hg/Hg2SO4), electrodes are less active for the VII/VIII reactions than after treatment at positive potentials. The activity of the electrode for the VII/VIII reactions is recovered by treatment at positive potentials. However, the converse is observed for the VIV/VV reactions: after treatment at positive potentials electrodes are less active for the VIV/VV reactions than after treatment at negative potentials. Thus, depending on the polarization treatment of each half-cell electrode, either the positive or negative half-cell can be less active (i.e. have slower kinetics). In general, however, the positive half-cell is more active than the negative half-cell: the rate constant of an activated electrode in the positive half-cell is over two orders of magnitude larger than that of a deactivated electrode in the negative half-cell. It is suggested that oxygen species formed on the electrode during anodization inhibit the VIV/VV electrode reaction but enhance the VII/VIII electrode reaction.