International Journal of Photoenergy (Jan 2022)

Flexible Polymer Solar Cells with High Efficiency and Good Mechanical Stability

  • I. Kathir,
  • Santaji Krishna Shinde,
  • C. Parswajinan,
  • Sudheer Hanumanthakari,
  • K. Loganathan,
  • S. Madhavarao,
  • A. H. Seikh,
  • M. H. Siddique,
  • Manikandan Ganesan

DOI
https://doi.org/10.1155/2022/4931922
Journal volume & issue
Vol. 2022

Abstract

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Single-junction polymer solar cells have demonstrated exceptional power conversion efficiency. Interlayer adhesion will be critical in building flexible polymer solar cells since inorganic conveyance layers would surely break. Aluminium-doped zinc oxide modified by polydopamine has emerged as a viable electron transportation layer in polymer solar cells, enhancing mechanical qualities by offering a high degree of flexibility and adhesion to the active layer. Power conversion efficiency of 12.7% is achieved in nonfullerene polymer solar cells built on PBDB-T2F:IT-4F with aluminium-doped zinc oxide 1.5% polydopamine electron transporting layer. Furthermore, the device based on Ag-mesh wire-wound electrodes has a power conversion efficiency of 11.5% and retains more than 90% of original power conversion efficiency afterward 1500 cycles of bending. For implantable and adaptable polymer solar cells for wide areas, roll-to-roll fabrication of inorganic electron transport layers is advantageous because of their mechanical resilience and thickness insensitivity.