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Title: Aggregation‐Induced Multilength Scaled Morphology Enabling 11.76% Efficiency in All‐Polymer Solar Cells Using Printing Fabrication

Abstract

Abstract All‐polymer solar cells (all‐PSCs) exhibit excellent stability and readily tunable ink viscosity, and are therefore especially suitable for printing preparation of large‐scale devices. At present, the efficiency of state‐of‐the‐art all‐PSCs fabricated by the spin‐coating method has exceeded 11%, laying the foundation for the preparation and practical utilization of printed devices. A high power conversion efficiency (PCE) of 11.76% is achieved based on PTzBI‐Si:N2200 all‐PSCs processing with 2‐methyltetrahydrofuran (MTHF, an environmentally friendly solvent) and preparation of active layers by slot die printing, which is the top efficient for all‐PSCs. Conversely, the PCE of devices processed by high‐boiling point chlorobenzene is less than 2%. Through the study of film formation kinetics, volatile solvents can freeze the morphology in a short time, and a more rigid conformation with strong intermolecular interaction combined with the solubility limit of PTzBI‐Si and N2200 in MTHF results in the formation of a fibril network in the bulk heterojunction. The multilength scaled morphology ensures fast transfer of carriers and facilitates exciton separation, which boosts carrier mobility and current density, thus improving the device performance. These results are of great significance for large‐scale printing fabrication of high‐efficiency all‐PSCs in the future.

Authors:
ORCiD logo [1];  [2];  [3];  [4];  [3];  [4];  [4];  [4];  [4];  [4];  [5];  [4];  [6];  [2];  [3]; ORCiD logo [7]
+ Show Author Affiliations
  1. Department of Polymer Science and Engineering School of Chemistry and Chemical Engineering Shanghai Jiao Tong University Shanghai 200240 P. R. China, State Key Laboratory of Luminescent Materials and Devices South China University of Technology Guangzhou 510640 P. R. China
  2. State Key Laboratory of Luminescent Materials and Devices South China University of Technology Guangzhou 510640 P. R. China
  3. Department of Polymer Science and Engineering School of Chemistry and Chemical Engineering Shanghai Jiao Tong University Shanghai 200240 P. R. China
  4. School of Physics and Astronomy and Collaborative Innovation Center of IFSA (CICIFSA) Shanghai Jiao Tong University Shanghai 200240 P. R. China
  5. State Key Laboratory of Fluorinated Materials Zibo City Shandong Province 256401 P. R. China
  6. School of Polymer Science and Engineering The University of Southern Mississippi Hattiesburg MS 39406 USA
  7. Department of Polymer Science and Engineering School of Chemistry and Chemical Engineering Shanghai Jiao Tong University Shanghai 200240 P. R. China, School of Physics and Astronomy and Collaborative Innovation Center of IFSA (CICIFSA) Shanghai Jiao Tong University Shanghai 200240 P. R. China
Publication Date:
Sponsoring Org.:
USDOE
OSTI Identifier:
1559051
Resource Type:
Publisher's Accepted Manuscript
Journal Name:
Advanced Materials
Additional Journal Information:
Journal Name: Advanced Materials Journal Volume: 31 Journal Issue: 41; Journal ID: ISSN 0935-9648
Publisher:
Wiley Blackwell (John Wiley & Sons)
Country of Publication:
Germany
Language:
English

Citation Formats

Zhu, Lei, Zhong, Wenkai, Qiu, Chaoqun, Lyu, Bosai, Zhou, Zichun, Zhang, Ming, Song, Jingnan, Xu, Jinqiu, Wang, Jing, Ali, Jazib, Feng, Wei, Shi, Zhiwen, Gu, Xiaodan, Ying, Lei, Zhang, Yongming, and Liu, Feng. Aggregation‐Induced Multilength Scaled Morphology Enabling 11.76% Efficiency in All‐Polymer Solar Cells Using Printing Fabrication. Germany: N. p., 2019. Web. doi:10.1002/adma.201902899.
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Zhu, Lei, Zhong, Wenkai, Qiu, Chaoqun, Lyu, Bosai, Zhou, Zichun, Zhang, Ming, Song, Jingnan, Xu, Jinqiu, Wang, Jing, Ali, Jazib, Feng, Wei, Shi, Zhiwen, Gu, Xiaodan, Ying, Lei, Zhang, Yongming, & Liu, Feng. Aggregation‐Induced Multilength Scaled Morphology Enabling 11.76% Efficiency in All‐Polymer Solar Cells Using Printing Fabrication. Germany. https://doi.org/10.1002/adma.201902899
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Zhu, Lei, Zhong, Wenkai, Qiu, Chaoqun, Lyu, Bosai, Zhou, Zichun, Zhang, Ming, Song, Jingnan, Xu, Jinqiu, Wang, Jing, Ali, Jazib, Feng, Wei, Shi, Zhiwen, Gu, Xiaodan, Ying, Lei, Zhang, Yongming, and Liu, Feng. Wed . "Aggregation‐Induced Multilength Scaled Morphology Enabling 11.76% Efficiency in All‐Polymer Solar Cells Using Printing Fabrication". Germany. https://doi.org/10.1002/adma.201902899.
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@article{osti_1559051,
title = {Aggregation‐Induced Multilength Scaled Morphology Enabling 11.76% Efficiency in All‐Polymer Solar Cells Using Printing Fabrication},
author = {Zhu, Lei and Zhong, Wenkai and Qiu, Chaoqun and Lyu, Bosai and Zhou, Zichun and Zhang, Ming and Song, Jingnan and Xu, Jinqiu and Wang, Jing and Ali, Jazib and Feng, Wei and Shi, Zhiwen and Gu, Xiaodan and Ying, Lei and Zhang, Yongming and Liu, Feng},
abstractNote = {Abstract All‐polymer solar cells (all‐PSCs) exhibit excellent stability and readily tunable ink viscosity, and are therefore especially suitable for printing preparation of large‐scale devices. At present, the efficiency of state‐of‐the‐art all‐PSCs fabricated by the spin‐coating method has exceeded 11%, laying the foundation for the preparation and practical utilization of printed devices. A high power conversion efficiency (PCE) of 11.76% is achieved based on PTzBI‐Si:N2200 all‐PSCs processing with 2‐methyltetrahydrofuran (MTHF, an environmentally friendly solvent) and preparation of active layers by slot die printing, which is the top efficient for all‐PSCs. Conversely, the PCE of devices processed by high‐boiling point chlorobenzene is less than 2%. Through the study of film formation kinetics, volatile solvents can freeze the morphology in a short time, and a more rigid conformation with strong intermolecular interaction combined with the solubility limit of PTzBI‐Si and N2200 in MTHF results in the formation of a fibril network in the bulk heterojunction. The multilength scaled morphology ensures fast transfer of carriers and facilitates exciton separation, which boosts carrier mobility and current density, thus improving the device performance. These results are of great significance for large‐scale printing fabrication of high‐efficiency all‐PSCs in the future.},
doi = {10.1002/adma.201902899},
journal = {Advanced Materials},
number = 41,
volume = 31,
place = {Germany},
year = {Wed Aug 28 00:00:00 EDT 2019},
month = {Wed Aug 28 00:00:00 EDT 2019}
}
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Journal Article:
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https://doi.org/10.1002/adma.201902899
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