A double-acceptor as a superior organic dye design for p-type DSSCs: high photocurrents and the observed light soaking effect

Herein, we report three novel single donor double acceptor dyes, BH2, 4, and 6, for use in p-type dye sensitized solar cells (DSSCs). BH4 yields one of the highest photocurrents, 7.4 mA cm(-2), to date. The high performance is achieved via a shorter synthetic route and no exotic materials or cell-bu...

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Published inPhysical chemistry chemical physics : PCCP Vol. 16; no. 47; pp. 26103 - 26111
Main Authors Click, Kevin A, Beauchamp, Damian R, Garrett, Benjamin R, Huang, Zhongjie, Hadad, Christopher M, Wu, Yiying
Format Journal Article
LanguageEnglish
Published England 21.12.2014
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Abstract Herein, we report three novel single donor double acceptor dyes, BH2, 4, and 6, for use in p-type dye sensitized solar cells (DSSCs). BH4 yields one of the highest photocurrents, 7.4 mA cm(-2), to date. The high performance is achieved via a shorter synthetic route and no exotic materials or cell-building techniques. We suggest a structural principle when building dyes whereby one adopts a double acceptor/single anchor when a triphenylamine moiety is incorporated into a dye for p-type DSSCs. This strategy increases the molar extinction coefficient while simultaneously reducing the number of synthetic steps. The molar extinction coefficients (99 980 M(-1) cm(-1)) reported herein are among the highest reported. Finally, we report the first-ever-observed light soaking effect in p-type DSSCs.
AbstractList Herein, we report three novel single donor double acceptor dyes, BH2, 4, and 6, for use in p-type dye sensitized solar cells (DSSCs). BH4 yields one of the highest photocurrents, 7.4 mA cm −2 , to date. The high performance is achieved via a shorter synthetic route and no exotic materials or cell-building techniques. We suggest a structural principle when building dyes whereby one adopts a double acceptor/single anchor when a triphenylamine moiety is incorporated into a dye for p-type DSSCs. This strategy increases the molar extinction coefficient while simultaneously reducing the number of synthetic steps. The molar extinction coefficients (99 980 M −1 cm −1 ) reported herein are among the highest reported. Finally, we report the first-ever-observed light soaking effect in p-type DSSCs.
Herein, we report three novel single donor double acceptor dyes, BH2, 4, and 6, for use in p-type dye sensitized solar cells (DSSCs). BH4 yields one of the highest photocurrents, 7.4 mA cm super(-2), to date. The high performance is achieved viaa shorter synthetic route and no exotic materials or cell-building techniques. We suggest a structural principle when building dyes whereby one adopts a double acceptor/single anchor when a triphenylamine moiety is incorporated into a dye for p-type DSSCs. This strategy increases the molar extinction coefficient while simultaneously reducing the number of synthetic steps. The molar extinction coefficients (99 980 M super(-1) cm super(-1)) reported herein are among the highest reported. Finally, we report the first-ever-observed light soaking effect in p-type DSSCs.
Herein, we report three novel single donor double acceptor dyes, BH2, 4, and 6, for use in p-type dye sensitized solar cells (DSSCs). BH4 yields one of the highest photocurrents, 7.4 mA cm(-2), to date. The high performance is achieved via a shorter synthetic route and no exotic materials or cell-building techniques. We suggest a structural principle when building dyes whereby one adopts a double acceptor/single anchor when a triphenylamine moiety is incorporated into a dye for p-type DSSCs. This strategy increases the molar extinction coefficient while simultaneously reducing the number of synthetic steps. The molar extinction coefficients (99 980 M(-1) cm(-1)) reported herein are among the highest reported. Finally, we report the first-ever-observed light soaking effect in p-type DSSCs.
Author Beauchamp, Damian R
Garrett, Benjamin R
Huang, Zhongjie
Wu, Yiying
Click, Kevin A
Hadad, Christopher M
Author_xml – sequence: 1
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  email: wu@chemistry.ohio-state.edu
  organization: Department of Chemistry and Biochemistry, The Ohio State University, 100 West 18th Avenue Columbus, Ohio 43210, USA. wu@chemistry.ohio-state.edu
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Snippet Herein, we report three novel single donor double acceptor dyes, BH2, 4, and 6, for use in p-type dye sensitized solar cells (DSSCs). BH4 yields one of the...
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StartPage 26103
SubjectTerms Coefficients
Construction
Dyes
Extinction
Photocurrent
Photoelectric effect
Soaking
Strategy
Title A double-acceptor as a superior organic dye design for p-type DSSCs: high photocurrents and the observed light soaking effect
URI https://www.ncbi.nlm.nih.gov/pubmed/25360820
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