Hybrid Dye-Titania Nanoparticles for Superior Low-Temperature Dye-Sensitized Solar Cells

摘要

In this work, a new strategy to design low-temperature (= 200 degrees C) sintered dye-sensitized solar cells (lt-DSSC) is reported to enhance charge collection efficiencies (eta(coll)), photoconversion efficiencies (eta), and stabilities under continuous operation conditions. Realization of lt-DSSC is enabled by the integration of hybrid nanoparticles based on TiO2-Ru(II) complex (TiO2_Ru_IS)-obtained by in situ bottom-up construction of Ru(II) N-3 dye-sensitized titania-into the photoelectrode. Incentives for the use of TiO2_Ru_IS are i) dye stability due to its integration into the TiO2 anatase network and ii) enhanced charge collection yield due to its significant resistance toward electron recombination with electrolytes. It is demonstrated that devices with single-layer photoelectrodes featuring blends of P25 and TiO2_Ru_IS give rise to a 60%.coll relative to a 46%.coll for devices with P25-based photoelectrodes. Responsible for this trend is a better charge transport and a reduced electron recombination. When using a multilayered photoelectrode architecture with a top layer based only on TiO2_Ru_IS, devices with an even higher eta(coll) (74%) featuring a. of around 8.75% and stabilities of 600 h are achieved. This represents the highest values reported for lt-DSSC to date.