Бета-Интегралы И Конечные Ортогональные Системы Многочленов Вильсона

The development of conjugated alternating donor–acceptor (D–A) copolymers with various electron‐rich and electron‐deficient units in polymer backbones has boosted the power conversion efficiency (PCE) over 17% for polymer solar cells (PSCs) over the past two decades. However, further enhancements in PCEs for PSCs are still imperative to compensate their imperfect stability for fulfilling practical applications. Meanwhile development of these alternating D–A copolymers is highly demanding in creative design and syntheses of novel D and/or A monomers. In this regard, when being possible to adopt an existing monomer unit as a third component from its libraries, either a D′ unit or an A′ moiety, to the parent D–A type polymer backbones to afford conjugated D–A terpolymers, it will give a facile and cost‐effective method to improve their light absorption and tune energy levels and also interchain packing synergistically. Moreover, the rationally controlled stoichiometry for these components in such terpolymers also provides access for further fine‐tuning these factors, thus resulting in high‐performance PSCs. Herein, based on their unique features, the recent progress of conjugated D–A terpolymers for efficient PSCs is reviewed and it is discussed how these factors influence their photovoltaic performance, for providing useful guidelines to design new terpolymers toward high‐efficiency PSCs.

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Fluorine substitution enhanced photovoltaic performance of a D–A1–D–A2 copolymer

Dang

et al. 2013

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A new alternating donor-acceptor (D-A1-D-A2) copolymer containing two electron-deficient moieties, isoindigo and quinoxaline, was synthesized. The photovoltaic performance of this polymer could be improved by incorporating fluorine atoms into the quinoxaline units, resulting in an efficiency of 6.32%. This result highlights the attractive promise of D-A1-D-A2 copolymers for high-performance bulk heterojunction solar cells.

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A Facile Method to Enhance Photovoltaic Performance of Benzodithiophene‐Isoindigo Polymers by Inserting Bithiophene Spacer

Dang

Tang

et al. 2013

Advanced Energy Materials

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A series of conjugated polymers containing benzodithiophene as donor and isoindigo as acceptor with no, one, two and three thiophene spacer groups is synthesized and characterized. The polymer with bithiophene as a spacer has a superior efficiency of 7.31% in solar cells. This demonstrates an important design strategy to produce polymers for high‐performance solar cells by inserting thiophene spacer groups.

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Tuning molecular aggregation to achieve highly bright AIE dots for NIR-II fluorescence imaging and NIR-I photoacoustic imaging

et al. 2020

Chem. Sci.

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An alternating D–A1–D–A2 copolymer containing two electron-deficient moieties for efficient polymer solar cells

Sun

Dang

et al. 2013

J. Mater. Chem. A

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The role of amide (n,π∗) transitions in polypeptide clusteroluminescence

Zhang

Yan

Dang

et al. 2022

Cell Reports Physical Science

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Dongfeng Dang

Enhanced Photovoltaic Performance of Indacenodithiophene‐Quinoxaline Copolymers by Side‐Chain Modulation

Recent advances in luminescent materials for super-resolution imaging via stimulated emission depletion nanoscopy

Conjugated Donor–Acceptor Terpolymers Toward High‐Efficiency Polymer Solar Cells

Fluorine substitution enhanced photovoltaic performance of a D–A1–D–A2 copolymer

A Facile Method to Enhance Photovoltaic Performance of Benzodithiophene‐Isoindigo Polymers by Inserting Bithiophene Spacer

Tuning molecular aggregation to achieve highly bright AIE dots for NIR-II fluorescence imaging and NIR-I photoacoustic imaging

An alternating D–A1–D–A2 copolymer containing two electron-deficient moieties for efficient polymer solar cells

The role of amide (n,π∗) transitions in polypeptide clusteroluminescence

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