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Literature DB >> 32427404

High-Performance All-Polymer Solar Cells: Synthesis of Polymer Acceptor by a Random Ternary Copolymerization Strategy.

Jiaqi Du^1,2, Ke Hu², Lei Meng¹, Indunil Angunawela³, Jinyuan Zhang¹, Shucheng Qin^1,2, Alex Liebman-Pelaez⁴, Chenhui Zhu⁴, Zhanjun Zhang², Harald Ade³, Yongfang Li^1,2,5.

Abstract

Demonstrated in this work is a simple random ternary copolymerization strategy to synthesize a series of polymer acceptors, PTPBT-ETx , by polymerizing a small-molecule acceptor unit modified from Y6 with a thiophene connecting unit and a controlled amount of an 3-ethylesterthiophene (ET) unit. Compared to PTPBT of only Y6-like units and thiophene units, PTPBT-ETx (where x represents the molar ratio of the ET unit) with an incorporated ET unit in the ternary copolymers show up-shifted LUMO energy levels, increased electron mobilities, and improved blend morphologies in the blend film with the polymer donor PBDB-T. And the all-polymer solar cell (all-PSC) based on PBDB-T:PTPBT-ET0.3 achieved a high power conversion efficiency over 12.5 %. In addition, the PTPBT-ET0.3 -based all-PSC also exhibits long-term photostability over 300 hours.

Entities: Chemical

Keywords: copolymerization; mechanical properties; polymers; solar cells; synthetic methods

Year: 2020 PMID： 32427404 DOI： 10.1002/anie.202005357

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

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3. Binary Blend All-Polymer Solar Cells with a Record Efficiency of 17.41% Enabled by Programmed Fluorination Both on Donor and Acceptor Blocks.

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Journal: Adv Sci (Weinh) Date: 2022-06-24 Impact factor: 17.521

4. Developing Y-Branched Polymer Acceptor with 3D Architecture to Reconcile Between Crystallinity and Miscibility Yielding >15% Efficient All-Polymer Solar Cells.

Authors: Jingjing Ji; Lei Zhu; Xia Xiong; Feng Liu; Ziqi Liang
Journal: Adv Sci (Weinh) Date: 2022-05-20 Impact factor: 17.521

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