Highly-ordered TiO2 nanotube arrays up to 220 μm in length:: use in water photoelectrolysis and dye-sensitized solar cells

The fabrication of highly-ordered TiO2 nanotube arrays up to 134 mu m in length by anodization of Ti foil has recently been reported ( Paulose et al 2006 J. Phys. Chem. B 110 16179). This work reports an extension of the fabrication technique to achieve TiO2 nanotube arrays up to 220 mu m in length, with a length-to-outer diameter aspect ratio of approximate to 1400, as well as their initial application in dye-sensitized solar cells and hydrogen production by water photoelectrolysis. The highly-ordered TiO2 nanotube arrays are fabricated by potentiostatic anodization of Ti foil in fluoride ion containing baths in combination with non-aqueous organic polar electrolytes including N-methylformamide, dimethyl sulfoxide, formamide, or ethylene glycol. Depending upon the anodization voltage, the inner pore diameters of the resulting nanotube arrays range from 20 to 150 nm. As confirmed by glancing angle x-ray diffraction and HRTEM studies, the as-prepared nanotubes are amorphous but crystallize with annealing at elevated temperatures.