International Conference on Advances in Manufacturing and Materials Engineering 2017 | |
Optimization of TiO2 thin film thickness for dye sensitized solar cell applications | |
机械制造;材料科学 | |
Al-Bat'Hi, S.A.M.^1 ; Ahmed, N.^1 ; Othman, R.^1 ; Othman, M.^1 | |
Department of Manufacturing and Materials Engineering, International Islamic University Malaysia (IIUM), Jalan Gombak, Kuala Lumpur | |
53100, Malaysia^1 | |
关键词: Absorption peaks; Current leakage; Different thickness; Doctor blade method; Glass substrates; Nanocrystalline TiO2; Particle bondings; TiO2 thin films; | |
Others : https://iopscience.iop.org/article/10.1088/1757-899X/290/1/012004/pdf DOI : 10.1088/1757-899X/290/1/012004 |
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学科分类:材料科学(综合) | |
来源: IOP | |
【 摘 要 】
Dye sensitized solar cells (DSSCs) rely on the absorption of photons by the dye molecules which are transported to the conduction band of the TiO2electrode. The microstructure, energy gap and the absorption spectra of the TiO2electrodes highly affects the efficiency of the cell. In this paper, the absorption spectra and energy gap has been studied by varying the thickness of the TiO2paste. Nanocrystalline TiO2thin films were deposited on ITO glass substrate with three different thickness (4.54μm, 7.12μm and 12.3μm) by using doctor blade method. After deposition all the samples were sintered at 450°C after deposition to enhance the particle bonding and for achieving better adhesion. The samples were characterized by UV-VIS spectra for determining the absorption spectra and Scanning Electron Microscopy (SEM) for investigating the thickness and the surface morphology. Fabricating the electrodes with different thickness showed significant changes in the energy gap and from the results it can be concluded that the energy gap increases with the increased thickness. The highest energy gap of 2.25ev and absorption 3.791 was achieved by 12.3μm thick sample. The absorption spectra also shows better absorption throughout the whole visible light range but the SEM images suggests that 12.3μm thick sample shows cracks all over the deposited region which will cause current leakage when the cell is assembled. Therefore, the optimum result was achieved by 7.12μm thick sample providing 1.9 ev energy gap and 3.91 absorption peak.
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