Abstract:
Currently, an active search and study of non-metal organic luminophores for dye-sensitized solar cells
is peformed. Merocyanine dyes are characterized by high bipolarity, narrow selective absorption bands, high
absorption cross sections (extinctions) and high photochemical stability.
In present work we have studied the effect of Ag nanoparticles (NPs) on the sensitization of a TiO2
film by merocyanine dye. For this purposes dye was adsorbed onto porous TiO2 films with the addition of
Ag/TiO2 core-shell nanostructures at a concentration of 0, 0.5, 1, and 2 wt%. These nanostructures consist of a
core – Ag nanoparticles (20 nm in diameter) and a TiO2 shell with a thickness of 4 nm. These TiO2 films were
used both for spectral-luminescence measurements and for DSSC assembling according to a standard
technique.
The absorption spectrum of merocyanine is located in the region of 500 – 650 nm with a maximum at
590 nm, the fluorescence band is centered at 630 nm. The measurements showed that the addition of Ag/TiO2
NPs does not affect on the shape and position of the absorption and fluorescence bands of the dye. In the
presence of plasmonic NPs, a 30% increase in the fluorescence intensity of the dye was recorded. The
fluorescence lifetime of the dye practically does not change in the presence of Ag/TiO2 NPs.
The current–voltage characteristics (CVC) of solar cells were measured under the illumination with a
Xe lamp with a power of 100 mW/cm2
. The merocyanine dye has the following photovoltaic parameters:
Isc=0.18 mA/cm2, Voc=355 mV, FF=0.33, η=0.21%. The addition of Ag/TiO2 NPs doubles the efficiency of
the DSSC sensitized with a merocyanine dye and Isc=0.6 mA/cm2
, Voc=373 mV, FF=0.20, η=0.43%. The data
on the spectral sensitivity of DSSC show that the addition of Ag/TiO2 NPs results in the growth in the spectral
sensitivity of the solar cell in the absorption band of the dye. At the same time, absorption of plasmonic Ag
NPs was recorded in the region of 420 nm. Thus, the combinatioin of the growth of fluorescence and spectral
sensitivity of solar cells with Ag/TiO2 NPs leads to an increase in the efficiency of the generation of charge
carriers in a semiconductor sensitized by the investigated merocyanine.