2013 年 81 巻 12 号 p. 961-965
One-dimensional electrochemical cellular automaton (1D-ECA) has been extended so that the boundary, or electrode, can act as a catalyst, allowing for intermediate short-lived adsorbates to be transformed to and from the chemical species existing in the adjacent region within the electrolytic solution. Cyclic voltammograms have been calculated for typical sets of parameter values corresponding to fast surface reactions.