Influence of the Active Layer Structure on the Photovoltaic Performance of Water-Soluble Polythiophene-Based Solar Cells

Lanzi, Massimiliano; Quadretti, D.; Marinelli, Martina; Ziai, Yasamin; Salatelli, Elisabetta; Pierini, Filippo

doi:10.3390/polym13101640

Cited by 6 publications

(8 citation statements)

References 37 publications

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“…Indeed, by mixing the ionic push–pull polymers with ionic PT6buP , used as ionic electron donor material, a less strong but even more clear tendency of this class of materials to act as EA derivatives is displayed, representing a promising and interesting alternative solution to the use of fullerene derivatives in BHJ devices. Moreover, despite quite reduced PCE values being obtained compared to the photovoltaic performances of the former polymers/ C 60 -Ser blends, comparable values to 2.29% as PCE of the PT6buP/C 60 -Ser blend previously reported in the literature [ 33 ] are given, as PCE values ranging between 1.71–1.93% were produced ( Table 4 ). Similarly to serinol-fullerene blends, the EQE profiles of the cells ( Figure 4 d) follow the trend observed in the UV–Vis spectra of ionic polymers in thin film, indicating that the whole absorption can effectively contribute to the photocurrent, especially in the case of P2b , which also give the best photovoltaic performance.…”

Section: Resultssupporting

confidence: 76%

“…The synthesis and characterization of poly{3-[6-(tributylphosphonium)-hexyl]-thiophene-2,5-diyl bromide} ( PT6buP ) and malonodiserinolamide fullerene ( C 60 -Ser ) as ionic ED and EA BHJ blend counterparts, respectively, were previously reported [ 33 ]. The ionic push–pull polythiophene-based materials, characterized by D-A or D-A-D sequence and based on conjugated 3-(6-bromohexyl)thiophene (ED) and benzothiadiazole (EA) moieties as building blocks, were obtained through a stepwise procedure involving the synthesis of non-ionic polymeric precursors P1 and P2 , prepared, respectively, by MW-assisted Suzuki cross-coupling polymerization [ 34 ] or oxidative coupling with FeCl 3 [ 24 ] of monomers 1 and 2 ( Scheme 2 ).…”

Section: Resultsmentioning

confidence: 99%

“…Moreover, the LUMO energy level of C 60 -Ser is close to that of PCBM (−3.91 eV) [ 47 ], whereas the HOMO of PT6buP is very close to that of P3HT (−4.76 eV) in agreement with the expected non-interaction of the ionic groups at the end of the side chain with the electronic setup of the conjugated polymer even in the solid state. The LUMO energy level of PT6buP could be established by its optical band gap (

, 2.16 eV) [ 33 ], determined by the onset absorption wavelength in thin film of the material. Indeed, through the relation HOMO +

, the LUMO energy level of PT6buP is therefore −2.62 eV.…”

Section: Resultsmentioning

confidence: 99%

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Ionic Push–Pull Polythiophenes: A Further Step towards Eco-Friendly BHJ Organic Solar Cells

et al. 2022

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Four new conjugated polymers alternating benzothiadiazole units and thiophene moieties functionalized with ionic phosphonium or sulfonic acid salts in the side chains were synthesized by a postfunctionalization approach of polymeric precursors. The introduction of ionic groups makes the conjugated polymers soluble in water and/or polar solvents, allowing for the fabrication of bulk heterojunction (BHJ) solar cells using environmentally friendly conditions. All polymers were fully characterized by spectroscopic, thermal, electrochemical, X-ray diffraction, scanning electron, and atomic force techniques. BHJ solar cells were obtained from halogen-free solvents (i.e., ethanol and/or anisole) by blending the synthesized ionic push–pull polymers with a serinol-fullerene derivative or an ionic homopolymer acting as electron-acceptor (EA) or electron-donor (ED) counterparts, respectively. The device with the highest optical density and the smoothest surface of the active layer was the best-performing, showing a 4.76% photoconversion efficiency.

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Section: Resultssupporting

confidence: 76%

Section: Resultsmentioning

confidence: 99%

, 2.16 eV) [ 33 ], determined by the onset absorption wavelength in thin film of the material. Indeed, through the relation HOMO +

, the LUMO energy level of PT6buP is therefore −2.62 eV.…”

Section: Resultsmentioning

confidence: 99%

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Ionic Push–Pull Polythiophenes: A Further Step towards Eco-Friendly BHJ Organic Solar Cells

et al. 2022

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“…Oxygen-, sulfur-, and nitrogen-based nucleophiles are all suitable options to achieve such a modification, as demonstrated by Shida and colleagues [63]. With this method, positively or negatively charged groups can be added on the polymer structure, thus leading to a water-soluble material [64][65][66].…”

Section: Postpolymerization Reactionsmentioning

confidence: 99%

Strategies for the synthesis of water-soluble conjugated polymers

Beaumont

Naqvi

Leclerc

2022

Trends in Chemistry

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“…π–conjugated polymers have recently attracted an increasing interest due to their superior benefits such as their ease of solution processing, rapid switching speeds, high coloration efficiency, and rich color palette during usage for electrochromic devices. π–conjugated polymers have a wide range of optical and electrochemical applications in field-effect transistors [ 6 , 7 ], capacitors [ 8 , 9 ], photovoltaic cells [ 10 , 11 ], light-emitting diodes [ 12 , 13 ], catalyst supports [ 14 , 15 ], and sensors [ 16 , 17 ].…”

Section: Introductionmentioning

confidence: 99%

1,4-Bis((9H-Carbazol-9-yl)Methyl)Benzene-Containing Electrochromic Polymers as Potential Electrodes for High-Contrast Electrochromic Devices

et al. 2022

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Four 1,4-bis((9H-carbazol-9-yl)methyl)benzene-containing polymers (PbCmB, P(bCmB-co-bTP), P(bCmB-co-dbBT), and P(bCmB-co-TF)) were electrosynthesized onto ITO transparent conductive glass and their spectral and electrochromic switching performances were characterized. The PbCmB film displayed four types of color variations (bright gray, dark gray, dark khaki, and dark olive green) from 0.0 to 1.2 V. P(bCmB-co-bTP) displayed a high transmittance variation (∆T = 39.56% at 685 nm) and a satisfactory coloration efficiency (η = 160.5 cm2∙C−1 at 685 nm). Dual-layer organic electrochromic devices (ECDs) were built using four bCmB-containing polycarbazoles and poly(3,4-ethylenedioxythiophene) (PEDOT) as anodes and a cathode, respectively. PbCmB/PEDOT ECD displayed gainsboro, dark gray, and bright slate gray colors at −0.4 V, 1.0 V, and 2.0 V, respectively. The P(bCmB-co-bTP)/PEDOT ECD showed a high ∆T (40.7% at 635 nm) and a high coloration efficiency (η = 428.4 cm2∙C−1 at 635 nm). The polycarbazole/PEDOT ECDs exhibited moderate open circuit memories and electrochemical redox stability. The characterized electrochromic properties depicted that the as-prepared polycarbazoles had a satisfactory application prospect as an electrode for the ECDs.

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Influence of the Active Layer Structure on the Photovoltaic Performance of Water-Soluble Polythiophene-Based Solar Cells

Cited by 6 publications

References 37 publications

Ionic Push–Pull Polythiophenes: A Further Step towards Eco-Friendly BHJ Organic Solar Cells

Ionic Push–Pull Polythiophenes: A Further Step towards Eco-Friendly BHJ Organic Solar Cells

Strategies for the synthesis of water-soluble conjugated polymers

1,4-Bis((9H-Carbazol-9-yl)Methyl)Benzene-Containing Electrochromic Polymers as Potential Electrodes for High-Contrast Electrochromic Devices

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