Title of article
Analysis of electron recombination in dye-sensitized solar cell
Author/Authors
Filipi?، نويسنده , , Miha and Berginc، نويسنده , , Marko and Smole، نويسنده , , Franc and Topic، نويسنده , , Marko، نويسنده ,
Issue Information
دوماهنامه با شماره پیاپی سال 2012
Pages
9
From page
238
To page
246
Abstract
A steady-state numerical model of dye-sensitized solar cell is based on continuity and transport equations for electrons, iodide and triiodide ions. The cell model consists of an active layer, where photovoltaic effect including diffusion of electrons in mesoporous TiO2 and ions in electrolyte takes place, and a bulk electrolyte layer, where only ions diffuse. Exponential distribution of trap states in TiO2 and Gaussian distributions of energy levels in the electrolyte within active layer are included in modeling of the recombination dynamics, according to Shockley-Read-Hall statistics and Marcus-Gerischer electron transfer theory. Recombinations at the front contact and a voltage drop at the platinum covered back contact are included in the model. Simulation results are compared with the measured current–voltage characteristics at different light intensities. In particular, light intensity dependence of open circuit voltage is studied over 4 decades. Optimization of cell efficiency regarding active layer and electrolyte layer thickness is carried out. Simulation results show that best efficiency is achieved when electrolyte layer thickness is minimized as much as possible and that active layer thickness is traded off with respect to recombination rates and/or diffusion limited current determined with the selection of the electrolyte.
Keywords
dye-sensitized solar cell , Electron recombinations , Numerical model
Journal title
Current Applied Physics
Serial Year
2012
Journal title
Current Applied Physics
Record number
1788802
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