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  • High-performance and scalable large-area organic solar cells enabled by . . .
    Trifluoromethyl-Substituted Conjugated Random Terpolymers Enable High-Performance Small and Large-Area Organic Solar Cells using Halogen-Free Solvent Adv Sci , 10 ( 24 ) ( 2023 ) , Article 2302376 , 10 1002 advs 202302376
  • Large-area organic solar cells - JOS
    Duan C, Ding L The new era for organic solar cells: Non-fullerene small molecular acceptors Sun L, Luo B, et al Patching defects in the active layer of large-area organic solar cells J Mater Chem A Liming Ding, Xiaoyan Du Large-area organic solar cells[J] Journal of Semiconductors, 2022, 43(6): 060201 doi: 10 1088 1674-4926 43 6
  • Flexible large-area organic tandem solar cells with high defect . . .
    The fabrication of thin layers of organic photoactive materials (typically ca 100–200 nm thick) over large area is needed for the commercial realization of organic solar cells This is challenging because defects on these thin layers can cause high leakage currents which lead to poor device performance and, ultimately, to poor device yield
  • Large-area flexible organic solar cells - Nature
    REVIEW ARTICLE OPEN Large-area flexible organic solar cells Fu Yang 1, Yuting Huang1, Yaowen Li 1,2 and Yongfang Li1,3 Two major challenges need to be overcome to bridge the efficiency gap
  • Recent Progress in Large-Area Organic Solar Cells - Wiley Online Library
    Organic solar cells (OSCs) possess the advantages of low cost, intrinsic flexibility, and large-area printing [1–4] These merits pro-mote OSCs to be widely deployed in portable energy resources and building-integrated photovoltaics in the future [5,6] Since the first report on bulk-heterojunction (BHJ) solar cells in 1995,[7]
  • Recent advances in organic solar cells: materials, design, and . . .
    Organic solar cells have emerged as promising alternatives to traditional inorganic solar cells due to their low cost, flexibility, and tunable properties This mini review introduces a novel perspective on recent advancements in organic solar cells, providing an overview of the latest developments in materials, device architecture, and performance optimization In contrast to existing
  • Enhancing performance and scalability of HTL-free organic solar cells . . .
    Interfacial layers play a crucial role in enhancing the performances and stabilities of organic solar cells (OSCs) Despite achieving high efficiencies from OSCs, the challenges associated with large-area manufacturing and the need for nanoscale uniformity during coating have hindered the large-scale production of these devices
  • Quantifying the effect of energetic disorder on organic solar cell . . .
    We previously showed that carriers in organic solar cells with large CT-state energetic disorder might not reach equilibrated DOS sites, and the emission of such devices are likely to occur from higher energy states 4, 5 Upreti et al 49 recently demonstrated that in such cases, photogenerated carriers are not fully relaxed to the lowest energy CT-state, leading to a higher V oc than what is
  • Patching defects in the active layer of large-area organic solar cells . . .
    Large area fabrication of organic solar cells is critical to achieve sufficient energy for power applications However, large-area organic solar cells still suffer from low production yields because their thin active layer (100–300 nm) is prone to form leakage current when film defects exist in the active la
  • Enhancing the reproducibility of large-area organic solar cells
    However, when transforming to the 1-cm 2 large-area cells, the PCE avg for the BHJ-type OSCs has significantly dropped to 4 66% for rigid cells and 3 88% for flexible forms, showing a large efficiency gap between small-area and large-area devices Considering that the statistical data are obtained from 50 parallel cells, we think this enormous efficiency gap is trustable
  • High-performance semi-transparent organic solar cells driven by the . . .
    Additionally, the development of translucent organic solar cells on flexible substrates is still technologically less mature compared to rigid substrates so flexible solar cells have much lower PCE than rigid solar cells which is one of the major obstacles to realizing high-performance, large-area flexible PV in roll-to-roll methods
  • Large-area organic photovoltaic modules with 14. 5% certified world . . .
    A new certified world record efficiency for large-area organic photovoltaic (OPV) modules is demonstrated, namely 14 5% on the total module area (15 0% on active area) This achievement is enabled by finite element method (FEM) computer simulations used to optimize the coating homogeneity and the solar module layout Barely any performance loss is observed when scaling 4-mm² cells up to >200





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