Synthesis and photochemical characterization of fumaronitrile-based organic semiconductor and its use in solution-processed small molecule organic solar cells

A novel and efficient symmetrical donor–acceptor–donor organic semiconductor, TFN-bis[ter-HT3-TPA], comprising two triphenylamine donors and one fumaronitrile acceptor linked by π-conjugated hexylated quaterthiophene, was synthesized and characterized the photoisomerisation found in synthetic interm...

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Bibliographic Details
Published in:Journal of photochemistry and photobiology. A, Chemistry. Chemistry., 2013-01, Vol.251, p.25-32
Main Authors: Lee, Jae Kwan, Jeong, Ban-Seok, Kim, Jooyoung, Kim, Chulwoo, Ko, Jaejung
Format: Article
Language:English
Subjects:
Organic semiconductor
Organic solar cell
Photoisomerisation
Small molecule
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Summary:A novel and efficient symmetrical donor–acceptor–donor organic semiconductor, TFN-bis[ter-HT3-TPA], comprising two triphenylamine donors and one fumaronitrile acceptor linked by π-conjugated hexylated quaterthiophene, was synthesized and characterized the photoisomerisation found in synthetic intermediate and investigated its photovoltaic properties in solution processed small molecule organic solar cell. [Display omitted] ► A novel symmetrical donor–acceptor–donor organic semiconductor based on fumaronitrile acceptor was synthesized. ► The photoisomerization of synthetic intermediate was found upon light illumination. ► Intramolecular charge transfers were effectively appeared in between two triphenylamine donors and fumaronitrile acceptors. A novel and efficient symmetrical donor–acceptor–donor organic semiconductor, TFN-bis[ter-HT3-TPA], comprising two triphenylamine (TPA) donors and one fumaronitrile (FN) acceptor linked by π-conjugated hexylated quaterthiophene, was synthesized and its photovoltaic behavior in solution-processed small molecule organic solar cells (SMOSCs) was investigated. Under light illumination, the synthetic intermediate di-bithophenyl-fumaronitrile, containing the FN acceptor moiety, exhibited cis–trans isomerization in solution, while cis–trans photoisomerisation of TFN-bis[ter-HT3-TPA] was not observed, presumably because of the steric bulk of the TPA-hexylated terthiophene in the cis-isomer. The TFN-bis[ter-HT3-TPA] showed strong intramolecular charge transfer between the TPA donor and the FN acceptors. A TFN-bis[ter-HT3-TPA]:PC71BM bulk heterojunction film with an optimized weight ratio of 1:3 resulted in an improved photovoltaic performance and an enhanced hole mobility. After insertion of a TiOx layer between the photoactive layer and the Al electrode, a power conversion efficiency of 2.21% was obtained in devices fabricated from the TFN-bis[ter-HT3-TPA]:PC71BM film resulting in a ∼17% higher efficiency than devices without a TiOx layer.
ISSN:1010-6030
1873-2666
DOI:10.1016/j.jphotochem.2012.10.010