Cobalt Oxide Electrode Doped with Iridium Oxide as
Highly Efficient Water Oxidation Electrode
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Abstract
Crystalline cobalt oxide nanoparticles
(nc-CoO<sub><i>x</i></sub>) supported on ITO glass or Ni
foam doped with 5 mol % crystalline
iridium oxide nanoparticles (nc-IrO<sub><i>x</i></sub>)
showed performances which are higher than those of nc-CoO<sub><i>x</i></sub> on ITO or Ni foam and nc-IrO<sub><i>x</i></sub> on a rotating glassy carbon disc electrode or Ni foam. The
initial Co<sup>III</sup> and Ir<sup>IV</sup> become Co<sup>IV</sup> and Ir<sup>VI</sup> upon applying positive potentials. The nc-CoO<sub><i>x</i></sub> particles intrinsically carry Co<sup>III</sup>O<sub>5</sub> centers which become Co<sup>IV</sup>O<sub>6</sub> centers
upon application of positive potentials. The O vacancy in Co<sup>III</sup>O<sub>5</sub> is transferred to Ir<sup>VI</sup>O<sub>6</sub> upon
application of positive potentials, giving rise to the formation of
Ir<sup>VI</sup>O<sub>5</sub> centers, which are proposed to be the
highly active catalytic centers for water oxidation
