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Thickness-Insensitive Cathode Interlayer via Molecular-Scale Distance Regulation for Efficient Organic Solar Cells.

Wen-Jing Sun1, Ya-Ting Wang1, Jia Wang2

  • 1State Key Laboratory of Natural Product Chemistry, Key Laboratory of Special Function Materials and Structure Design (MOE), College of Chemistry and Chemical Engineering, Lanzhou University, Lanzhou 730000, China.

Journal of the American Chemical Society
|January 27, 2026
PubMed
Summary
This summary is machine-generated.

Researchers developed new cathode interlayer materials (CIMs) for organic solar cells (OSCs) by precisely controlling molecular structure. This innovation leads to highly efficient, thickness-insensitive OSCs suitable for large-scale printing and industrial production.

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Area of Science:

  • Materials Science
  • Organic Electronics
  • Photovoltaics

Background:

  • Cathode interlayers (CILs) are crucial for organic solar cell (OSC) performance.
  • Developing thickness-insensitive CIL materials (CIMs) for large-scale printing is a significant challenge.

Purpose of the Study:

  • To design efficient CIMs by regulating molecular-scale distances.
  • To achieve thickness-insensitive CIMs for printable OSCs.

Main Methods:

  • Synthesized three CIMs (P3, P6, P9) with varying spacer lengths linking pyrene diimide (PyDI) units.
  • Investigated the effect of spacer length on π-π stacking, doping, and conductivity.
  • Evaluated OSC performance, thickness tolerance, and scalability.

Main Results:

  • P6 exhibited optimal π-π stacking, efficient Br- doping, and enhanced conductivity.
  • P6-based OSCs achieved high power conversion efficiencies (PCEs) of 19.90% (binary) and 20.04% (ternary).
  • P6 demonstrated excellent batch consistency, thickness tolerance (retaining 80% PCE at 133 nm), and scalability.

Conclusions:

  • A molecular-scale distance regulation strategy effectively designs high-performance, thickness-insensitive CIMs.
  • The developed CIMs are suitable for industrial-scale production of efficient OSCs.
  • This approach advances the development of printable and scalable organic solar cell technology.