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Journal of Materials Science

Published in:

04-11-2016

Formation of phenyl-C₆₁-butyric acid methyl ester nanoscale aggregates after supercritical carbon dioxide annealing

Authors: Xiuxiu Zhao, Danhui Wang, Nana Yuan, Yue Zheng, Lin Li, Zhishan Bo, Jianjun Zhou, Hong Huo

Published in: Journal of Materials Science | Issue 5/2017

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Abstract

In this study, we successfully developed a novel method to create [6,6]-phenyl-C₆₁-butyric acid methyl ester (PCBM) nanoscale aggregates using supercritical carbon dioxide (scCO₂) annealing and fabricated bulk heterojunction (BHJ) solar cells with the nanoscale PCBM to improve device performance. PCBM forms nanoscale aggregates with a size of approximately 70 nm after scCO₂ annealing at 11 MPa and 50 °C for 60 min. However, PCBM remains amorphous after thermal annealing (TA) at 150 °C for 5 min. The morphology, structure, and crystallinity of poly(3-hexylthiophene) (P3HT) in the scCO₂-treated P3HT film are nearly the same as those in the TA-treated P3HT film. In the P3HT/PCBM blend, the formation of PCBM nanoscale aggregates by scCO₂ treatment decreases the disturbance for P3HT crystallization and improves diffusion and regular packing of P3HT molecular chains. This increases the crystallinity of P3HT so that it becomes higher than that in the TA-treated blend film. The nanoscale aggregates of PCBM and the higher crystallinity of P3HT give the scCO₂-treated P3HT/PCBM BHJ solar cells a maximum power conversion efficiency (PCE) of 2.74%, which is much higher than that of the as-cast device (PCE is 1.70%) and a little higher than the highest PCE (2.64%) of thermally annealed devices. These results indicate that scCO₂ is an effective, mild, and environmental method to modulate the nanoscale aggregates of PCBM and to improve the PCE of BHJ solar cells. However, the size of the PCBM aggregates is a little larger than the most suitable size of the exciton diffusion length, leading to limited improvement of the PCE.

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Derbal-Habak H, Bergeret C, Cousseau J, Nunzi JM (2011) Improving the current density J _sc of organic solar cells P3HT:PCBM by structuring the photoactive layer with functionalized SWCNTs. Sol Energy Mater Sol Cells 95:S53–S56CrossRef

Wang DH, Kim JK, Seo JH, Park OO, Park JH (2012) Stability comparison: a PCDTBT/PC₇₁BM bulk-heterojunction versus a P3HT/PC₇₁BM bulk- heterojunction. Sol Energy Mater Sol Cells 101:249–255CrossRef

Schroeder BC, Li Z, Brady MA, Faria GC, Ashraf RS, Takacs CJ, Cowart JS, Duong DT, Chiu KH, Tan C-H, Cabral JT, Salleo A, Chabinyc ML, Durrant JR, McCulloch I (2014) Enhancing fullerene-based solar cell lifetimes by addition of a fullerene dumbbell. Angew Chem Int Ed 53:12870–12875CrossRef

Yin W, Dadmun M (2011) A new model for the morphology of P3HT/PCBM organic photovoltaics from small-angle neutron scattering: rivers and streams. ACS Nano 5:4756–4768CrossRef

Huang YC, Tsao CS, Chuang CM, Lee CH, Hsu FH, Cha HC, Chen CY, Lin TH, Su CJ, Jeng US, Su WF (2012) Small- and wide-angle X-ray scattering characterization of bulk heterojunction polymer solar cells with different fullerene derivatives. J Phys Chem C 116:10238–10244CrossRef

Tang H, Lu G, Li L, Li J, Wang Y, Yang X (2012) Precise construction of PCBM aggregates for polymer solar cells via multi-step controlled solvent vapor annealing. J Mater Chem 20:683–688CrossRef

Hegde R, Henry N, Whittle B, Zang H, Hu B, Chen J, Xiao K, Dadmun M (2012) The impact of controlled solvent exposure on the morphology, structure and function of bulk heterojunction solar cells. Sol Energy Mater Sol Cells 107:112–124CrossRef

Pal S, Roy S, Nandi AK (2005) Temperature variation of DC conductivity of poly(3-alkyl thiophenes) and their cocrystals. J Phys Chem B 109:18332–18341CrossRef

Ma WL, Yang CY, Gong X, Lee K, Heeger AJ (2005) Thermally stable, efficient polymer solar cells with nanoscale control of the interpenetrating network morphology. Adv Funct Mater 15:1617–1622CrossRef

10.

Yu G, Gao J, Hummelen JC, Wudl F, Heeger AJ (1995) Polymer photovoltaic cells–enhanced efficiencies via a network of internal donor-acceptor heterojunctions. Science 270:1789–1791CrossRef

11.

Park SH, Roy A, Beaupre S, Cho S, Coates N, Moon JS, Moses D, Leclerc M, Lee K, Heeger AJ (2009) Bulk heterojunction solar cells with internal quantum efficiency approaching 100%. Nat Photonics 3:297–302CrossRef

12.

Gadisa A, Oosterbaan WD, Vandewal K, Bolsee J-C, Bertho S, D’Haen J, Lutsen L, Vanderzande D, Manca JV (2009) Effect of alkyl side-chain length on photovoltaic properties of poly(3-alkylthiophene)/PCBM bulk heterojunctions. Adv Funct Mater 19:3300–3306CrossRef

13.

Nguyen LH, Hoppe H, Erb T, Gunes S, Gobsch G, Serdar N (2007) Effects of annealing on the nanomorphology and performance of poly (alkylthiophene): fullerene bulk-heterojunction solar cells. Adv Funct Mater 17:1071–1078CrossRef

14.

Ma W, Tumbleston JR, Ye L, Wang C, Hou JH, Ade H (2014) Quantification of nano- and mesoscale phase separation and relation to donor and acceptor quantum efficiency, J _(SC), and FF in polymer:fullerene solar cells. Adv Mater 26:4234–4241CrossRef

15.

Jamieson FC, Domingo EB, McCarthy-Ward T, Heeney M, Stingelin N, Durrant JR (2012) Fullerene crystallisation as a key driver of charge separation in polymer/fullerene bulk heterojunction solar cells. Chem Sci 3:485–492CrossRef

16.

Mihailetchi VD, Koster LJA, Blom PWM, Melzer C, de Boer B, van Duren JKJ, Janssen RAJ (2005) Compositional dependence of the performance of poly(p-phenylene vinylene):methanofullerene bulk-heterojunction solar cells. Adv Funct Mater 15:795–801CrossRef

17.

Rance WL, Ferguson AJ, McCarthy-Ward T, Heeney M, Ginley DS, Olson DC, Rumbles G, Kopidakis N (2011) Photoinduced carrier generation and decay dynamics in intercalated and non-intercalated polymer: fullerene bulk heterojunctions. ACS Nano 5:5635–5646CrossRef

18.

Keivanidis PE, Clarke TM, Lilliu S, Agostinelli T, Macdonald JE, Durrant JR, Bradley DDC, Nelson J (2010) Dependence of charge separation efficiency on film microstructure in poly (3-hexylthiophene-2,5-diyl):[6,6]-phenyl-C-61 butyric acid methyl ester blend films. J Phys Chem Lett 1:734–738CrossRef

19.

Lindqvist C, Bergqvist J, Feng C-C, Gustafsson S, Backe O, Treat ND, Bounioux C, Henriksson P, Kroon R, Wang E, Sanz-velasco A, Kristiansen PM, Stingelin N, Olsson E, Inganas O, Andersson MR, Muller C (2014) Fullerene nucleating agents: a route towards thermally stable photovoltaic blends. Adv Energy Mater 4:1301437CrossRef

20.

Sun Y, Han YC, Liu JG (2013) Controlling PCBM aggregation in P3HT/PCBM film by a selective solvent vapor annealing. Chin Sci Bull 58:2767–2774CrossRef

21.

Treat ND, Nekuda Malik JA, Reid O, Yu L, Shuttle CG, Rumbles G, Hawker CJ, Chabinyc ML, Smith P, Stingelin N (2013) Microstructure formation in molecular and polymer semiconductors assisted by nucleation agents. Nat Mater 12:628–633CrossRef

22.

Jung B, Kim K, Eom Y, Kim W (2015) High-pressure solvent vapor annealing with a benign solvent to rapidly enhance the performance of organic photovoltaics. Acs Appl Mater Interfaces 7:13342–13349CrossRef

23.

Hu S, Dyck O, Chen HP, Hsiao YC, Hu B, Duscher G, Dadmun M, Khomami B (2013) The impact of selective solvents on the evolution of structure and function in solvent annealed organic photovoltaics. RSC Adv 4:27931–27938CrossRef

24.

Lan Q, Yu J, Zhang J, He J (2011) Enhanced crystallization of bisphenol a polycarbonate in thin and ultrathin films by supercritical carbon dioxide. Macromolecules 44:5743–5749CrossRef

25.

Ma WM, Yu J, He JS (2005) Empty delta crystal as an intermediate form for the delta to gamma transition of syndiotactic polystyrene in supercritical carbon dioxide. Macromolecules 38:4755–4760CrossRef

26.

Ma WM, Yu J, He JS (2005) Supercritical fluid assisted crystal transition of gamma-form crystal in syndiotactic polystyrene. Macromol Rapid Commun 26:112–115CrossRef

27.

Gross SM, Roberts GW, Kiserow DJ, DeSimone JM (2000) Crystallization and solid-state polymerization of poly(bisphenol A carbonate) facilitated by supercritical CO₂. Macromolecules 33:40–45CrossRef

28.

Ambuken PV, Stretz HA, Dadmun M, Kilbey SM II (2015) Gas expanded polymer process to anneal nanoparticle dispersion in thin film. Sol Energy Mater Sol Cells 140:101–107CrossRef

29.

Amonoo JA, Glynos E, Chen XC, Green PF (2012) An alternative processing strategy for organic photovoltaic devices using a supercritical fluid. J Phys Chem C 116:20708–20716CrossRef

30.

Zhao XX, Yuan NN, Zheng Y, Wang DH, Li L, Bo ZS, Zhou JJ, Huo H (2016) Relation between morphology and performance parameters of poly(3-hexylthiophene):phenyl-C61-butyric acid methyl ester photovoltaic devices. Org Electron 28:189–196CrossRef

31.

Huang B, Amonoo JA, Li A, Chen XC, Green PF (2014) Role of domain size and phase purity on charge carrier density, mobility, and recombination in poly(3-hexylthiophene):phenyl-C61-butyric acid methyl ester devices. J Phys Chem C 118:3968–3975CrossRef

32.

Kokubu R, Yang Y (2012) Vertical phase separation of conjugated polymer and fullerene bulk heterojunction films induced by high pressure carbon dioxide treatment at ambient temperature. Phys Chem Chem Phys 14:8313–8318CrossRef

33.

Li L, Lu G, Li S, Tang H, Yang X (2008) Epitaxy-assisted creation of PCBM nanocrystals and its application in constructing optimized morphology for bulk-heterojunction polymer solar cells. J Phys Chem B 112:15651–15658CrossRef

Title: Formation of phenyl-C61-butyric acid methyl ester nanoscale aggregates after supercritical carbon dioxide annealing
Authors: Xiuxiu Zhao
Danhui Wang
Nana Yuan
Yue Zheng
Lin Li
Zhishan Bo
Jianjun Zhou
Hong Huo
Publication date: 04-11-2016
Publisher: Springer US
Published in: Journal of Materials Science / Issue 5/2017
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-016-0543-y

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