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Работы, на которые ссылается эта работа

Работ: 48

Работа: A Composite Interlayer Enabling Simultaneous Performance Enhancement in Quantum Dot Solar Cells and Photodetectors <sup>†</sup>

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

    Zhongxiang Peng, Kaihu Xian, Yong Cui +8

    Статья2021Цитирований: 10
    ABI

  3. 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

  4. 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

  5. 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

  6. Organic solar cells: beyond 20%

    Ruijie Ma, Zhenghui Luo, Youdi Zhang +47

    Статья2025Цитирований: 8
    ABI

  7. 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

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

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

    Статья2023Цитирований: 7
    ABI

  9. 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

  10. 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

  11. Unveiling the Strain‐induced Microstructural Evolution and Morphology‐Stretchability Correlations of Intrinsically Stretchable Organic Photovoltaic Films

    Zhongxiang Peng, Saimeng Li, Kangkang Zhou +7

    Статья2024Цитирований: 6
    ABI

  12. In-situ temperature-controllable grazing incidence X-ray scattering of semiconducting polymer thin films under stretching

    Yu Chen, Saimeng Li, Zhibang Shen +3

    Статья2024Цитирований: 5
    ABI

  13. Challenges and recent advances in photodiodes-based organic photodetectors

    Junwei Liu, Mengyuan Gao, Juhee Kim +4

    Статья2021Цитирований: 5
    ABI

  14. Thermally stable poly(3‐hexylthiophene): Nonfullerene solar cells with efficiency breaking 10%

    Mengyuan Gao, Yang Liu, Kaihu Xian +9

    Статья2022Цитирований: 5
    ABI

  15. Tuning the solution aggregation and molecular order for efficient and thermally stable polymer solar cells

    Mengyuan Gao, Junjiang Wu, Xiyue Yuan +8

    Статья2023Цитирований: 5
    ABI

  16. Unraveling the Solution Aggregation Structures and Processing Resiliency of High‐Efficiency Organic Photovoltaic Blends

    Mengyuan Gao, Chunlong Sun, Yiwen Li +7

    Статья2024Цитирований: 4
    ABI

  17. Delicate crystallinity control enables high-efficiency P3HT organic photovoltaic cells

    Kaihu Xian, Yang Liu, Junwei Liu +11

    Статья2022Цитирований: 4
    ABI

  18. Open‐Circuit Voltage Loss in Lead Chalcogenide Quantum Dot Solar Cells

    Junwei Liu, Kaihu Xian, Long Ye +1

    Обзорная статья2021Цитирований: 4
    ABI

  19. Brominated Polythiophene Reduces the Efficiency‐Stability‐Cost Gap of Organic and Quantum Dot Hybrid Solar Cells

    Junwei Liu, Yang Liu, Jingjing Wang +12

    Статья2022Цитирований: 4
    ABI

  20. Processing Poly(3‐Hexylthiophene) Interlayer with Nonhalogenated Solvents for High‐Performance and Low‐Cost Quantum Dot Solar Cells

    Jingjing Wang, Junwei Liu, Kangkang Zhou +5

    Статья2022Цитирований: 4
    ABI

  21. Toward efficient hybrid solar cells comprising quantum dots and organic materials: progress, strategies, and perspectives

    Junwei Liu, Jingjing Wang, Yang Liu +7

    Статья2022Цитирований: 4
    ABI

  22. A generic approach yields organic solar cells with enhanced efficiency and thermal stability

    Mengyuan Gao, Kai Zhang, Chunyong He +7

    Статья2022Цитирований: 4
    ABI

  23. Stretchable All-Small-Molecule Organic Solar Cells Enabled by Polymer Elastomer Confinement

    Chenyi Zhang, Yuqiang Liu, Hongxiang Li +7

    Статья2025Цитирований: 3
    ABI

  24. An Aggregation‐Suppressed Polymer Blending Strategy Enables High‐Performance Organic and Quantum Dot Hybrid Solar Cells

    Junwei Liu, Jiawei Qiao, Kangkang Zhou +8

    Статья2022Цитирований: 3
    ABI

  25. Over 15% Efficiency PbS Quantum‐Dot Solar Cells by Synergistic Effects of Three Interface Engineering: Reducing Nonradiative Recombination and Balancing Charge Carrier Extraction

    Chao Ding, Dandan Wang, Dong Liu +10

    Статья2022Цитирований: 3
    ABI