Abstract
Analytical mathematics and digital simulation are used to predict the response, to a potential jump, of the junction between insulating and conducting regions of an electrode. The simulation is carried out differentially and employs other novel features. Concentrations in the vicinity of edges of positive and negative curvatures, as well as straight edges, are analyzed by the model and thereby the faradaic current densities and currents are predicted. It is shown that, in addition to the well-understood cottrellian current arising from the surface of the conducting electrode, currents are generated that are proportional to the length of the edge and to its curvature. These results are then applied to inlaid disks and to partially blocked electrodes. The possibility is explored of using the response to a potential step to gain information on the geometry of a partially blocked electrode.
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Acknowledgements
The financial support of the Natural Sciences and Engineering Research Council of Canada is acknowledged with gratitude. Keith Oldham warmly thanks Alan Bond and Fritz Scholz, not only for their editing of this article but also for their generosity and effort in envisaging and assembling the entire issue. Other contributors to this issue are also thanked for their kind dedications.
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Myland, J.C., Oldham, K.B. The electrochemistry of electrode edges and its relevance to partially blocked voltammetric electrodes. J Solid State Electrochem 13, 521–535 (2009). https://doi.org/10.1007/s10008-008-0713-1
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DOI: https://doi.org/10.1007/s10008-008-0713-1