The dependence of composition and morphology of Tl203/Co304 composites on the experimental variables chosen for their anodic deposition (i.e., concentration of Co304 particles in suspension, electrode potential, electrolysis charge, and angular speed of the electrode) has been investigated. The composite layers have been tested as electrode materials for oxygen evolution from basic media, and found to be rather effective electrocatalysts characterized by the following features: overpotential (ii) at j = 100 mA cm2 ca. 475 mV, Tafel slope close to 60 mV decade, linear dependence of j on [OW]. Significant electrocatalytic activity could be achieved with a Co304 loading as low as 2 iO g cm2. The electrode performance was maintained during a 14 day electrolysis carried out at room temperature with j = 100 mA cm2. Partial reduction of the composite layer was found to activate the composite electrodes, by decreasing i' to ca. 415 mV (at j = 100 mA cm2). However this activation was not long lasting.
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