Ion coordinating sensitizer for high efficiency mesoscopic dye-sensitized solar cells: Influence of lithium ions on the photovoltaic performance of liquid and solid-state cells

Abstract

A Li+ coordinating sensitizer, NaRu(4-carboxylic acid-4′-carboxylate)(4,4′-bis[(triethylene glycol methyl ether) methyl ether]-2,2′-bipyridine)-(NCS)2 (coded as K51), has been synthesized, and the effect of Li+ coordination on its performance in mesoscopic titanium dioxide dye-sensitized solar cells has been investigated. Fourier transform infrared spectra suggest that Li+ coordinates to the triethylene oxide methyl ether side chains on the dye molecules. With the addition of Li+ to a nonvolatile liquid electrolyte, we observe a significant increase in the photocurrent density, with only a small decrease in the open-circuit voltage, contrary to a non ion coordinating dye which displays a large drop in potential with the addition of Li+. For a solar cell incorporating an organic hole-transporter, we find the potential rises with increasing the Li+ concentration in the hole-transporter matrix. For the liquid electrolyte and solid-state cells, we obtain power conversion efficiencies of 7.8% and 3.8%, respectively, under simulated sunlight. © 2006 American Chemical Society.