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A fundamental study on the effect of deformation on the electrochemical
behavior of polarized metallic electrodes in aqueous solution has been conducted. The
study was successful in developing a novel technique for studying the electrochemical
behavior of the electrodes under static or cyclic deformation. The development of the
tecinique was established based on incorporating experimental methods of
electrochemistry and with those of holographic interferometry. In other words, the
new technique is capable of simultaneously measuring the anodic or cathodic current of
the electrodes as a function of static or cyclic deformations in term of interference
fringes. As a result, a relationship between deformation and current was developed
for a number of metallic electrodes/aqueous solution systems. Data on Nickel
electrodes in iN H2S04 and Molybdenum electrodes in O.75N KU will be presented at
the meeting. For further details on the technique, the reader is strongly encouraged to
refer to the literature elsewhere.
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Khaled J. Habib, "Holographic interferometry in electrochemical systems," Proc. SPIE 1319, Optics in Complex Systems, (1 July 1990); https://doi.org/10.1117/12.22171