Abstract
Vertically aligned, reasonably dense, about 500nm long TiO2 nanotubes (NTs) are prepared on transparent conducting fluorine-doped tin oxide (FTO) surfaces by a wet chemical procedure. The dye-sensitized solar cells (DSCs) fabricated using such active electrodes and N719 dye with usual I−/I3− electrolyte yield 2.46% solar-to-electricity conversion efficiency (η) without the TiCl4 treatment and 3.40% with the TiCl4 treatment, both at 1000Wm−2 simulated AM 1.5 irradiation. These values are higher and impressive for shorter NT arrays of ∼500nm length. The successive introduction of TiO2 nanoparticles (NPs) by spraying into the NTs to form NT–NP composite films results in a linear increase of dye coverage. The variation of η as a result of NT–NP composite structure (with TiCl4 treatment) shows a gradual increase up to 8.53% at 1:2.2 NT:NP mass ratio, beyond which it slowly decreases.
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