Highly efficient semitransparent tandem organic solar cells with complementary absorber materials

Highly efficient semitransparent tandem organic solar cells with complementary absorber materials

We present highly efficient, semitransparent small molecule organic solar cells. The devices employ an indium tin oxide-free top contact, consisting of thin metal films. An additional organic layer is used to enhance light outcoupling. The solar cell incorporates two stacked subcells, each containin...

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Veröffentlicht in:Applied physics letters 2011-07, Vol.99 (4), p.043301-043301-3
Hauptverfasser: Meiss, Jan, Menke, Torben, Leo, Karl, Uhrich, Christian, Gnehr, Wolf-Michael, Sonntag, Stefan, Pfeiffer, Martin, Riede, Moritz
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container_issue 4
container_start_page 043301
container_title Applied physics letters
container_volume 99
creator Meiss, Jan
Menke, Torben
Leo, Karl
Uhrich, Christian
Gnehr, Wolf-Michael
Sonntag, Stefan
Pfeiffer, Martin
Riede, Moritz
description We present highly efficient, semitransparent small molecule organic solar cells. The devices employ an indium tin oxide-free top contact, consisting of thin metal films. An additional organic layer is used to enhance light outcoupling. The solar cell incorporates two stacked subcells, each containing a donor:acceptor bulk heterojunction. The two subcells have complementary absorbers, with separate blue (C 60 ), red (fluorinated zinc phthalocyanine), and green (dicyanovinyl oligothiophene derivative) absorbing molecules. A power conversion efficiency of 4.9±0.2% is obtained for the device having an average transmission of 24% in the visible range.
doi_str_mv 10.1063/1.3610551
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title Highly efficient semitransparent tandem organic solar cells with complementary absorber materials
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