A Quasi-Solid State DSSC with 10.1% Efficiency through Molecular Design of the Charge-Separation and -Transport

A Quasi-Solid State DSSC with 10.1% Efficiency through Molecular Design of the Charge-Separation and -Transport

Organic-based solar cells potentially offer a photovoltaic module with low production costs and low hazard risk of the components. We report organic dye-sensitized solar cells, fabricated with molecular designed indoline dyes in conjunction with highly reactive but robust nitroxide radical molecules...

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Veröffentlicht in:Scientific reports 2016-06, Vol.6 (1), p.28022-28022, Article 28022
Hauptverfasser: Suzuka, Michio, Hayashi, Naoki, Sekiguchi, Takashi, Sumioka, Kouichi, Takata, Masakazu, Hayo, Noriko, Ikeda, Hiroki, Oyaizu, Kenichi, Nishide, Hiroyuki
Format: Artikel
Sprache:eng
Schlagworte:
639/301/1005/1007
639/638/298/923/1028
Dyes
Efficiency
Electrolytes
Humanities and Social Sciences
multidisciplinary
Photovoltaic cells
Photovoltaics
Polymers
Production costs
Pulp & paper mills
Science
Solar cells
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Zusammenfassung:Organic-based solar cells potentially offer a photovoltaic module with low production costs and low hazard risk of the components. We report organic dye-sensitized solar cells, fabricated with molecular designed indoline dyes in conjunction with highly reactive but robust nitroxide radical molecules as redox mediator in a quasi-solid gel form of the electrolyte. The cells achieve conversion efficiencies of 10.1% at 1 sun and maintain the output performance even under interior lighting. The indoline dyes, customized by introducing long alkyl chains, specifically interact with the radical mediator to suppress a charge-recombination process at the dye interface. The radical mediator also facilitates the charge-transport with remarkably high electron self-exchange rate even in the quasi-solid state electrolyte to lead to a high fill factor.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep28022