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Effect of molecular filtering and electrolyte composition on the spatial variation in performance of dye solar cells

Authors :
Emma Rikkinen
Imran Asghar
Piers R. F. Barnes
Brian C. O’Regan
Peter Lund
Kati Miettunen
Janne Halme
Simone Mastroianni
Perustieteiden korkeakoulu
School of Science
Teknillisen fysiikan laitos
Department of Applied Physics
Aalto-yliopisto
Aalto University
Publication Year :
2012
Publisher :
Elsevier BV, 2012.

Abstract

It is demonstrated that the molecular filtering effect of TiO2 has a significant influence on dye solar cell (DSC) performance. As electrolyte is injected to a DSC, some of the electrolyte components adsorb to the surface TiO2 (here 4-tert-butylpyridine and 1-methyl-benzimidazole) and accumulate near the electrolyte filling hole resulting in varying electrolyte composition and performance across the cell. The spatial performance distribution was investigated with a new method, the segment cell method. Not only is the segmented cell method simple and cheap when compared to the only other method for examining spatial variation (photocurrent mapping), it also has the major advantage of allowing the spatial variation in all other operating parameters to be assessed. Here the molecular filtering effect was to influence the cell performance in case of all the five studied electrolytes causing up to 35% losses in efficiency. Raman spectra indicated that the loss in photocurrent in the electrolyte filling was in correlation with the loss of thiocyanate ligands suggesting that dye regeneration may also be a significant factor in addition to electron injection in some of the cells. There were also shifts in the absorption spectra the photoelectrodes which further supported changes in the thiocyanate ligands. Besides absorption changes, there were additional shifts in the IPCE spectra which may relate to deprotonation of the dye. The efficiency losses were reduced to ∼10% with contemporary electrolyte compositions.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....69d781e58f007ed74c8da1b268af944f