Electrochemical characterization of nanostructured films of manganese and vanadium oxide in ionic liquids: lithium batteries and supercapacitors application.

This work presents the preparation of manganese and vanadium oxides nanostructured films by different techniques and their electrochemical characterization in different ionic liquids based electrolytes. Manganese oxide films have been prepared by self-assembly layer-by-layer and by electrodeposition assisted by polystyrene nanospheres template. Vanadium oxide films have been also prepared by self-assembly layer-by-layer deposition and by electrophoretic deposition. Several aspects related with the use of ionic liquids as electrolytes have been discussed: the obtained results from layer-by-layer deposition of manganese oxide have shown that ionic liquid ions also participate in the charge compensation process, but only superficially; in spite of ionic liquid cation been larger than Li+, it moves faster, achieving the electrode surface before, being a barrier for Li+ intercalation. From the results obtained for the manganese oxide prepared by template assisted electrodeposition, it was possible to notice that electrochemical performance is dependent on the ionic liquid structure, being possible to achieve higher performance than with conventional organic solvent electrolyte with one of the studied ionic liquid. Superior performance in comparison with conventional electrolyte has also been achieved for vanadium oxide films prepared by layer-by-layer deposition from the point of view of cyclability. Finally, the electrochemical characterization of vanadium oxide films prepared by electrophoretic deposition in ionic liquids has shown that not only the use of nanoparticles but also the deposition method employed influences the electrochemical performance. To conclude, the obtained results have shown that the use of nanostructured films and ionic liquids as electrolytes are promising alternatives for the obtention of high performance energy storage and conversion devices. (AU)