Friday, July 04, 2014

EFFECT OF THE CHROMOPHORES STRUCTURES ON THE PERFORMANCE OF SOLID-STATE DYE SENSITIZED SOLAR CELLS

Nano, Volume 09, Issue 05, July 2014.

The effect of metal-free chromophores on dye-sensitized solar cell performance is investigated. Solid state dye-sensitized solar cells (ssDSCs) using different molecular sensitizers based on triphenylamine (TPA) with thiophene linkers and different alkyl chain in the donor unit have been characterized using impedance spectroscopy (IS). We show that different molecular structures play a fundamental role on solar cell performance, by the effect produced on TiO2 conduction band position and in the recombination rate. Dye structure and its electronic properties are the main factors that control the recombination, the capacitance and the efficiency of the cells. A clear trend between the performance of the cell and the optimization level of the blocking effect of the dye structure has been identified in the solid state solar cells with Spiro-OMeTAD hole conductor. Sensitizers based on triphenylamine with thiophene linkers and different alkyl chain in the donor units have been used on Solid State Dye Solar Cells, to check the main factors that control the recombination, the capacitance and the efficiency of the cells. Identifying that the design of dyes with a bulky moieties in the donor part of the structure are the key factor to reduce the recombination and improve the efficiency of the device.

HAINING TIAN et al

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