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Impact of interfacial molecular orientation on radiative recombination and charge generation efficiency

Author

Listed:
  • Niva A. Ran

    (University of California)

  • Steffen Roland

    (University of Potsdam)

  • John A. Love

    (University of California
    University of Potsdam
    University of California)

  • Victoria Savikhin

    (SLAC National Accelerator Laboratory
    Stanford University)

  • Christopher J. Takacs

    (University of California
    SLAC National Accelerator Laboratory)

  • Yao-Tsung Fu

    (Georgia Institute of Technology)

  • Hong Li

    (Georgia Institute of Technology)

  • Veaceslav Coropceanu

    (Georgia Institute of Technology)

  • Xiaofeng Liu

    (University of California)

  • Jean-Luc Brédas

    (Georgia Institute of Technology)

  • Guillermo C. Bazan

    (University of California)

  • Michael F. Toney

    (SLAC National Accelerator Laboratory)

  • Dieter Neher

    (University of Potsdam)

  • Thuc-Quyen Nguyen

    (University of California)

Abstract

A long standing question in organic electronics concerns the effects of molecular orientation at donor/acceptor heterojunctions. Given a well-controlled donor/acceptor bilayer system, we uncover the genuine effects of molecular orientation on charge generation and recombination. These effects are studied through the point of view of photovoltaics—however, the results have important implications on the operation of all optoelectronic devices with donor/acceptor interfaces, such as light emitting diodes and photodetectors. Our findings can be summarized by two points. First, devices with donor molecules face-on to the acceptor interface have a higher charge transfer state energy and less non-radiative recombination, resulting in larger open-circuit voltages and higher radiative efficiencies. Second, devices with donor molecules edge-on to the acceptor interface are more efficient at charge generation, attributed to smaller electronic coupling between the charge transfer states and the ground state, and lower activation energy for charge generation.

Suggested Citation

  • Niva A. Ran & Steffen Roland & John A. Love & Victoria Savikhin & Christopher J. Takacs & Yao-Tsung Fu & Hong Li & Veaceslav Coropceanu & Xiaofeng Liu & Jean-Luc Brédas & Guillermo C. Bazan & Michael , 2017. "Impact of interfacial molecular orientation on radiative recombination and charge generation efficiency," Nature Communications, Nature, vol. 8(1), pages 1-9, December.
  • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00107-4
    DOI: 10.1038/s41467-017-00107-4
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    Cited by:

    1. Hongbo Wu & Hao Lu & Yungui Li & Xin Zhou & Guanqing Zhou & Hailin Pan & Hanyu Wu & Xunda Feng & Feng Liu & Koen Vandewal & Wolfgang Tress & Zaifei Ma & Zhishan Bo & Zheng Tang, 2024. "Decreasing exciton dissociation rates for reduced voltage losses in organic solar cells," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    2. Jinfeng Huang & Tianyi Chen & Le Mei & Mengting Wang & Yuxuan Zhu & Jiting Cui & Yanni Ouyang & Youwen Pan & Zhaozhao Bi & Wei Ma & Zaifei Ma & Haiming Zhu & Chunfeng Zhang & Xian-Kai Chen & Hongzheng, 2024. "On the role of asymmetric molecular geometry in high-performance organic solar cells," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    3. Yuang Fu & Tack Ho Lee & Yi-Chun Chin & Richard A. Pacalaj & Chiara Labanti & Song Yi Park & Yifan Dong & Hye Won Cho & Jin Young Kim & Daiki Minami & James R. Durrant & Ji-Seon Kim, 2023. "Molecular orientation-dependent energetic shifts in solution-processed non-fullerene acceptors and their impact on organic photovoltaic performance," Nature Communications, Nature, vol. 14(1), pages 1-12, December.

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