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Trifluoromethyl-Substituted Conjugated Random Terpolymers Enable High-Performance Small and Large-Area Organic Solar Cells Using Halogen-Free Solvent.

Zia Ur RehmanMuhammad HarisSeung Un RyuMuhammad JahankhanChang Eun SongHang Ken LeeSang Kyu LeeWon Suk ShinTaiho ParkJong-Cheol Lee
Published in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2023)
The advancement of non-fullerene acceptors with crescent-shaped geometry has led to the need for polymer donor improvements. Additionally, there is potential to enhance the photovoltaic parameters in high-efficiency organic solar cells (OSCs). The random copolymerization method is a straightforward and effective strategy to further optimize photoactive morphology and enhance device performance. However, finding a suitable third component in terpolymers remains a crucial challenge. In this study, a series of terpolymer donors (PTF3, PTF5, PTF10, PTF20, and PTF50) is synthesized by introducing varying amounts of the trifluoromethyl-substituted unit (CF3) into the PM6 polymer backbone. Even subtle changes in the CF3 content can significantly enhance all the photovoltaic parameters due to the optimized energy levels, molecular aggregation/miscibility, and bulk-heterojunction morphology of the photoactive materials. Thus, the best binary OSC based on the PTF5:Y6-BO achieves an outstanding power conversion efficiency (PCE) of 18.2% in the unit cell and a PCE of 11.6% in the sub-module device (aperture size: 54.45 cm 2 ), when using halogen-free solvent o-xylene. This work showcases the remarkable potential of the easily accessible CF3 unit as a key constituent in the construction of terpolymer donors in high-performance OSCs.
Keyphrases
  • solar cells
  • cystic fibrosis
  • high efficiency
  • molecular docking
  • single cell
  • water soluble
  • particulate matter
  • stem cells
  • human health
  • heavy metals
  • ionic liquid
  • cell therapy
  • mesenchymal stem cells