Influence of TiO2 nanotube morphology and TiCl4 treatment on the charge transfer in dye-sensitized solar cells

Dye-sensitized solar cells (DSSCs) were fabricated using TiO 2 nanoparticles (NPs), TiO 2 nanotube arrays (NTAs), and surface-modified NTAs with a TiCl 4 treatment. The photovoltaic efficiencies of the DSSCs using TiO 2 NP, NTA, and TiCl 4 -treated NTA electrodes are 4.25, 4.74, and 7.47 %, respecti...

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Bibliographic Details
Published in:Applied physics. A, Materials science & processing Materials science & processing, 2013-09, Vol.112 (3), p.733-737
Main Authors: Lee, Sun Hong, Chae, Sang Youn, Hwang, Yun Jeong, Koo, Kee-Kahb, Joo, Oh-Shim
Format: Article
Language:English
Subjects:
Applied sciences
Characterization and Evaluation of Materials
Condensed Matter Physics
Cross-disciplinary physics: materials science
rheology
Dyes
Electrodes
Energy
Exact sciences and technology
Machines
Manufacturing
Materials science
Morphology
Nanocrystalline materials
Nanoscale materials and structures: fabrication and characterization
Nanostructure
Nanotechnology
Nanotubes
Natural energy
NTA
Optical and Electronic Materials
Photovoltaic cells
Photovoltaic conversion
Physics
Physics and Astronomy
Processes
Solar cells
Solar cells. Photoelectrochemical cells
Solar energy
Surfaces and Interfaces
Thin Films
Titanium dioxide
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Summary:Dye-sensitized solar cells (DSSCs) were fabricated using TiO 2 nanoparticles (NPs), TiO 2 nanotube arrays (NTAs), and surface-modified NTAs with a TiCl 4 treatment. The photovoltaic efficiencies of the DSSCs using TiO 2 NP, NTA, and TiCl 4 -treated NTA electrodes are 4.25, 4.74, and 7.47 %, respectively. The highest performance was observed with a TiCl 4 -treated TiO 2 NTA photoanode, although in the case of the latter two electrodes, the amounts of N719 dye adsorbed were similar and 68 % of that of the NP electrode. Electrochemical impedance measurements show that the overall resistance, including the charge–transfer resistance, was smaller with NTA morphologies than with NP morphologies. We suggest that a different electron transfer mechanism along the one-dimensional nanostructure of the TiO 2 NTAs contributes to the smaller charge–transfer resistance, resulting in a higher short circuit current ( J sc ), even at lower dye adsorption. Furthermore, the TiCl 4 -treated NTAs showed even smaller charge–transfer resistance, resulting in the highest J sc value, because the downward shift in the conduction band edge improves the electron injection efficiency from the excited dye into the TiCl 4 -treated TiO 2 electrodes.
ISSN:0947-8396
1432-0630
DOI:10.1007/s00339-013-7786-0