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Работы, на которые ссылается эта работа

Работ: 122

Работа: Unlocking intrinsic stretchability in PM6-based materials for next-generation solar cells: challenges and innovations

  1. Achieving Record‐High Stretchability and Mechanical Stability in Organic Photovoltaic Blends with a Dilute‐absorber Strategy

    Saimeng Li, Mengyuan Gao, Kangkang Zhou +6

    Статья2023Цитирований: 13
    ABI

  2. Single-junction organic solar cells with over 19% efficiency enabled by a refined double-fibril network morphology

    Lei Zhu, Ming Zhang, Jinqiu Xu +17

    Статья2022Цитирований: 12
    ABI

  3. Thermoplastic Elastomer Tunes Phase Structure and Promotes Stretchability of High‐Efficiency Organic Solar Cells

    Zhongxiang Peng, Kaihu Xian, Yong Cui +8

    Статья2021Цитирований: 10
    ABI

  4. Establishing Co‐Continuous Network of Conjugated Polymers and Elastomers for High‐Performance Polymer Solar Cells with Extreme Stretchability

    Jin‐Woo Lee, Trieu Hoang‐Quan Nguyen, Eun Sung Oh +8

    Статья2024Цитирований: 10
    ABI

  5. Simultaneously improved stretchability, stability, and output power in solar cells <i>via</i> entanglement control

    Kangkang Zhou, Dexia Han, Kaihu Xian +8

    Статья2024Цитирований: 10
    ABI

  6. Unraveling the Stretch‐Induced Microstructural Evolution and Morphology–Stretchability Relationships of High‐Performance Ternary Organic Photovoltaic Blends

    Zhongxiang Peng, Kaihu Xian, Junwei Liu +9

    Статья2022Цитирований: 9
    ABI

  7. Thorough Optimization for Intrinsically Stretchable Organic Photovoltaics

    Xiang‐Jun Zheng, Xiaoling Wu, Qiang Wu +15

    Статья2023Цитирований: 9
    ABI

  8. Mechanically robust and stretchable organic solar cells plasticized by small-molecule acceptors

    Zhenye Wang, Di Zhang, Lvpeng Yang +22

    Статья2025Цитирований: 9
    ABI

  9. Strain-induced power output enhancement in intrinsically stretchable organic solar cells

    Jin‐Woo Lee, Eun Sung Oh, Seungbok Lee +5

    Статья2024Цитирований: 8
    ABI

  10. Simultaneously improving efficiency, stability and intrinsic stretchability of organic photovoltaic films <i>via</i> molecular toughening

    Kaihu Xian, Kai Zhang, Tao Zhang +6

    Статья2025Цитирований: 8
    ABI

  11. Organic solar cells: beyond 20%

    Ruijie Ma, Zhenghui Luo, Youdi Zhang +47

    Статья2025Цитирований: 8
    ABI

  12. Berechnung der Fließgrenze von Mischkristallen auf Grund der Plastizitätsbedingung für Einkristalle .

    A. Reuss

    Статья1929Цитирований: 8
    ABI

  13. Unraveling the Correlations between Mechanical Properties, Miscibility, and Film Microstructure in All‐Polymer Photovoltaic Cells

    Kangkang Zhou, Kaihu Xian, Qingchun Qi +8

    Статья2022Цитирований: 7
    ABI

  14. Rubber-Toughened Organic Solar Cells: Miscibility–Morphology–Performance Relations

    Abdullah Al Shafe, Harry M. Schrickx, Kan Ding +2

    Статья2023Цитирований: 7
    ABI

  15. Miscibility screening promotes the efficiency and stability of P3HT‐based organic solar cells

    Kaihu Xian, Ruijie Ma, Kangkang Zhou +6

    Статья2023Цитирований: 7
    ABI

  16. From fabrication to function: Innovations in intrinsically stretchable all-polymer solar cells

    Kangkang Zhou, Wei Zhai, Vakhobjon Kuvondikov +2

    СтатьяOrganic Electronics and PhotovoltaicsNexus2025Цитирований: 7
    ABI

  17. Organic photovoltaics generate more power under stretching

    Saimeng Li, Junwei Liu, Vakhobjon Kuvondikov +2

    СтатьяOrganic Electronics and PhotovoltaicsMatter2025Цитирований: 7
    ABI

  18. Stretching the future: strategies and emerging trends in stretchable organic photovoltaic materials

    Jingyu Zuo, Dexia Han, Huifeng Yao +2

    СтатьяOrganic Electronics and PhotovoltaicsEnergy & Environmental Science2025Цитирований: 6
    ABI

  19. Single‐Junction Organic Solar Cells with 19.17% Efficiency Enabled by Introducing One Asymmetric Guest Acceptor

    Rui Sun, Yao Wu, Xinrong Yang +10

    Статья2022Цитирований: 6
    ABI

  20. Intrinsically Stretchable Organic Photovoltaic Cells with Improved Mechanical Durability and Stability via Dual‐Donor Polymer Blending

    Xin Li, Huizhen Ke, Sunsun Li +7

    Статья2024Цитирований: 6
    ABI

  21. Correlating miscibility, mechanical parameters, and stability of ternary polymer blends for high-performance solar cells

    Kangkang Zhou, Kaihu Xian, Ruijie Ma +7

    Статья2023Цитирований: 6
    ABI

  22. Material Design and Device Fabrication Strategies for Stretchable Organic Solar Cells

    Jin Su Park, Geon-U Kim, Seungjin Lee +6

    Обзорная статья2022Цитирований: 5
    ABI

  23. Control of Phase Separation and Crystallization for <scp>High‐Efficiency</scp> and <scp>Mechanically Deformable</scp> Organic Solar Cells

    Zicheng Ding, Yi Zhang, Yueling Su +4

    Статья2022Цитирований: 5
    ABI

  24. Sequentially regular polymer acceptors featuring flexible spacers for high-performance and mechanically robust all-polymer solar cells

    Jin‐Woo Lee, Cheng Sun, Sunwoo Lee +6

    Статья2022Цитирований: 5
    ABI

  25. Rigid- and soft-block-copolymerized conjugated polymers enable high-performance intrinsically stretchable organic solar cells

    Jin‐Woo Lee, Heung-Goo Lee, Eun Sung Oh +5

    Статья2023Цитирований: 5
    ABI