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Effect of capping group on the properties of non-polymeric diketopyrrolopyrroles for solution-processed bulk heterojunction solar cells

Reference

Ajeesh Chandrasekharan, Mike Hambsch, Hui Jin, Fatemeh Maasoumi, Paul E. Shaw, Aaron Raynor, Paul L. Burn, Shih-Chun Lo, Paul Meredith, Ebinazar B. Namdas, "Effect of capping group on the properties of non-polymeric diketopyrrolopyrroles for solution-processed bulk heterojunction solar cells" , In Organic Electronics, vol. 50, no. Supplement C, pp. 339-346, 2017. [doi]

Abstract

Abstract Solution-processable non-polymeric organic semiconductors are attractive for opto-electronic applications due to their relatively simple synthetic reproducibility and characterization, and enhanced capability for fine-tuning of their properties. We report the synthesis, charge transport, photophysics, and photovoltaic properties of three non-polymeric materials based upon bisarylthiophenyl diketopyrrolopyrrole [DPP(ThAr)2]. The DPP(ThAr)2 molecules are comprised of solubilizing alkyl groups, 2-ethylhexyl (for 1a) and 2-octyldodecyl (for 1b and 2), which are capped with "electron accepting" moieties - fluorenone (1) or benzothiadiazole (2). While the materials could be prepared under standard Suzuki-Miyaura cross-coupling conditions, a simple direct arylation afforded 2 and 1b in good yields. We found 1a with a short alkyl chain lacked sufficient solubility for solution processing but 1b and 2 are solution processable and form good quality films. All three materials exhibited ambipolar charge transport in field effect transistors, with 1b showing balanced charge mobilities of about 10−3 cm2 V−1 s−1. Bulk heterojunction solar cells of 1b or 2 with PC71BM were found to have high open-circuit voltages (up to 0.9 V) with power conversion efficiencies of up to 4.5% and 2.6%, respectively.

Bibtex

@article{CHANDRASEKHARAN2017339,
title = "Effect of capping group on the properties of non-polymeric diketopyrrolopyrroles for solution-processed bulk heterojunction solar cells",
journal = "Organic Electronics",
volume = "50",
number = "Supplement C",
pages = "339 - 346",
year = "2017",
issn = "1566-1199",
doi = "10.1016/j.orgel.2017.08.008",
url = "http://www.sciencedirect.com/science/article/pii/S1566119917303956",
author = "Ajeesh Chandrasekharan and Mike Hambsch and Hui Jin and Fatemeh Maasoumi and Paul E. Shaw and Aaron Raynor and Paul L. Burn and Shih-Chun Lo and Paul Meredith and Ebinazar B. Namdas",
abstract = "Abstract Solution-processable non-polymeric organic semiconductors are attractive for opto-electronic applications due to their relatively simple synthetic reproducibility and characterization, and enhanced capability for fine-tuning of their properties. We report the synthesis, charge transport, photophysics, and photovoltaic properties of three non-polymeric materials based upon bisarylthiophenyl diketopyrrolopyrrole [DPP(ThAr)2]. The DPP(ThAr)2 molecules are comprised of solubilizing alkyl groups, 2-ethylhexyl (for 1a) and 2-octyldodecyl (for 1b and 2), which are capped with "electron accepting" moieties - fluorenone (1) or benzothiadiazole (2). While the materials could be prepared under standard Suzuki-Miyaura cross-coupling conditions, a simple direct arylation afforded 2 and 1b in good yields. We found 1a with a short alkyl chain lacked sufficient solubility for solution processing but 1b and 2 are solution processable and form good quality films. All three materials exhibited ambipolar charge transport in field effect transistors, with 1b showing balanced charge mobilities of about 10−3 cm2 V−1 s−1. Bulk heterojunction solar cells of 1b or 2 with PC71BM were found to have high open-circuit voltages (up to 0.9 V) with power conversion efficiencies of up to 4.5% and 2.6%, respectively."
}

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