New Nanocomposite Materials by Incorporation of Nanocrystalline TiO₂ Particles into Polyaniline Conductive Films

F.J.Feliciano，O.C.Monteiro

Department of Chemistry and Biochemistry and CQB,Faculty of Sciences,University of Lisbon,Campo Grande,1749-016 Lisbon,Portugal

摘 要：This work is focused on the combination of two building-blocks,nanocrystalline TiO₂ particles and polyaniline conductive films（PAni）.The preparation of new nanostructured composite materials,displaying electron-and proton-conductive properties,to be used for the fabrication of new and superior energy storage devices was envisaged.The semiconducting TiO₂ nanoparticles were obtained by means of a hydrothermal route.The PAni films were prepared on glassy carbon electrodes by electrochemical polymerization,under potential dynamic conditions.After characterization by X-ray diffraction,transmission electron microscopy or scanning electron microscopy and electrochemical techniques,the nanocrystalline particles were immobilized in the polymer matrix.The incorporation of the TiO₂ was achieved using two distinct approaches:during the polymer growth or by deposition over previously prepared PAni films.The results demonstrate that the PAni morphology depends on the experimental conditions used during the polymer growth.After TiO₂ immobilization,the best electrochemical response was obtained for the nanocomposite structure produced through the TiO₂ incorporation after the PAni film synthesis.The modified electrodes were structurally and morphologically characterized and their electro-catalytic activity towards the hydrogen evolution reaction was analyzed.A new electrochemical performance related with the oxidation of molecular hydrogen entrapped in the PAni-TiO₂ matrix was observed for the modified electrode after TiO₂ incorporation.This behavior can be directly associated with the synergetic combination of the TiO₂ and PAni,and is dependent on the amount of the semiconductor.

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