Panchromatic Sensitized Solar Cells Based on Metal Sulfide Quantum Dots Grown Directly on Nanostructured TiO2 Electrodes
Articolo
Data di Pubblicazione:
2011
Abstract:
The use of narrow band gap semiconductors such as PbS may expand the light
absorption range to the near-infrared region in quantum-dot-sensitized solar cells (QDSCs),
increasing the generated photocurrent. However, the application of PbS as a sensitizer in
QDSCs causes some problems of stability and high recombination. Here, we show that the
direct growth of a CdS coating layer on previously deposited PbS by the simple method of
successive ionic layer adsorption and reaction (SILAR) minimizes these problems. A
remarkable short-circuit current density for PbS/CdS QDSCs is demonstrated, !11 mA/
cm2, compared to that of PbS QDSCs, with photocurrents lower than 4 mA/cm2, using
polysulfide electrolyte in both cells. The cell efficiency reached a promising 2.21% under 1
sun of simulated irradiation (AM1.5G, 100 mW/cm2). Enhancement of the solar cell
performance beyond the arithmetic addition of the efficiencies of the single constituents (PbS and CdS) is demonstrated for the nanocomposite PbS/CdS configuration. PbS dramatically increases the obtained photocurrents, and the CdS coating stabilizes the solar cell behavior.
absorption range to the near-infrared region in quantum-dot-sensitized solar cells (QDSCs),
increasing the generated photocurrent. However, the application of PbS as a sensitizer in
QDSCs causes some problems of stability and high recombination. Here, we show that the
direct growth of a CdS coating layer on previously deposited PbS by the simple method of
successive ionic layer adsorption and reaction (SILAR) minimizes these problems. A
remarkable short-circuit current density for PbS/CdS QDSCs is demonstrated, !11 mA/
cm2, compared to that of PbS QDSCs, with photocurrents lower than 4 mA/cm2, using
polysulfide electrolyte in both cells. The cell efficiency reached a promising 2.21% under 1
sun of simulated irradiation (AM1.5G, 100 mW/cm2). Enhancement of the solar cell
performance beyond the arithmetic addition of the efficiencies of the single constituents (PbS and CdS) is demonstrated for the nanocomposite PbS/CdS configuration. PbS dramatically increases the obtained photocurrents, and the CdS coating stabilizes the solar cell behavior.
Tipologia CRIS:
1.1 Articolo in rivista
Elenco autori:
Braga, A; Gimenez, S; Concina, Isabella; Vomiero, Alberto; MORA SERO, I.
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