Electrochimica Acta, Vol.50, No.18, 3609-3615, 2005
Electrochemical response of a composite Pt/TiO2 layer formed potentiodynamically on titanium surfaces
By potentiodynamic polarization of mechanically polished titanium in a diluted aqueous solution of hexachloroplatinic acid, nearly spherical Pt microparticles were grown, embedded into the simultaneously formed TiO2 film. The real surface of platinum may be easily controlled by the number of potentiodynamic cycles, and roughness factors exceeding 100 were obtained. Within the potential region of both hydrogen and oxygen underpotential deposition, in both acidic and alkaline solutions, the electrode displayed an excellent electrochemical response characteristic of smooth polycrystalline platinum, unlike to highly dispersed platinum electrodes produced by other methods. The preparation method applied in this work presents an easy way to obtain an electrode surface combining the behaviour of smooth polycrystalline platinum with the behaviour of microdisc arrays. Its high electrocatalytic effectiveness was demonstrated for oxygen reduction and bromide ion adsorption/oxidation. (c) 2005 Elsevier Ltd. All rights reserved.
Keywords:composite metal/oxide layer;platinum electrodeposition;platinum microbeads;template action;titanium dioxide;underpotential deposition peaks