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Exciton transport in molecular organic semiconductors boosted by transient quantum delocalization

Author

Listed:
  • Samuele Giannini

    (University College London
    University of Mons)

  • Wei-Tao Peng

    (University College London)

  • Lorenzo Cupellini

    (Universitá di Pisa)

  • Daniele Padula

    (Universitá di Siena)

  • Antoine Carof

    (Université de Lorraine)

  • Jochen Blumberger

    (University College London)

Abstract

Designing molecular materials with very large exciton diffusion lengths would remove some of the intrinsic limitations of present-day organic optoelectronic devices. Yet, the nature of excitons in these materials is still not sufficiently well understood. Here we present Frenkel exciton surface hopping, an efficient method to propagate excitons through truly nano-scale materials by solving the time-dependent Schrödinger equation coupled to nuclear motion. We find a clear correlation between diffusion constant and quantum delocalization of the exciton. In materials featuring some of the highest diffusion lengths to date, e.g. the non-fullerene acceptor Y6, the exciton propagates via a transient delocalization mechanism, reminiscent to what was recently proposed for charge transport. Yet, the extent of delocalization is rather modest, even in Y6, and found to be limited by the relatively large exciton reorganization energy. On this basis we chart out a path for rationally improving exciton transport in organic optoelectronic materials.

Suggested Citation

  • Samuele Giannini & Wei-Tao Peng & Lorenzo Cupellini & Daniele Padula & Antoine Carof & Jochen Blumberger, 2022. "Exciton transport in molecular organic semiconductors boosted by transient quantum delocalization," Nature Communications, Nature, vol. 13(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30308-5
    DOI: 10.1038/s41467-022-30308-5
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    1. Chao Li & Jiadong Zhou & Jiali Song & Jinqiu Xu & Huotian Zhang & Xuning Zhang & Jing Guo & Lei Zhu & Donghui Wei & Guangchao Han & Jie Min & Yuan Zhang & Zengqi Xie & Yuanping Yi & He Yan & Feng Gao , 2021. "Non-fullerene acceptors with branched side chains and improved molecular packing to exceed 18% efficiency in organic solar cells," Nature Energy, Nature, vol. 6(6), pages 605-613, June.
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    4. Yifan Dong & Vasileios C. Nikolis & Felix Talnack & Yi-Chun Chin & Johannes Benduhn & Giacomo Londi & Jonas Kublitski & Xijia Zheng & Stefan C. B. Mannsfeld & Donato Spoltore & Luca Muccioli & Jing Li, 2020. "Orientation dependent molecular electrostatics drives efficient charge generation in homojunction organic solar cells," Nature Communications, Nature, vol. 11(1), pages 1-9, December.
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    1. Remington L. Carey & Samuele Giannini & Sam Schott & Vincent Lemaur & Mingfei Xiao & Suryoday Prodhan & Linjun Wang & Michelangelo Bovoloni & Claudio Quarti & David Beljonne & Henning Sirringhaus, 2024. "Spin relaxation of electron and hole polarons in ambipolar conjugated polymers," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
    2. Kai Müller & Karl S. Schellhammer & Nico Gräßler & Bipasha Debnath & Fupin Liu & Yulia Krupskaya & Karl Leo & Martin Knupfer & Frank Ortmann, 2023. "Directed exciton transport highways in organic semiconductors," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    3. Arjun Ashoka & Nicolas Gauriot & Aswathy V. Girija & Nipun Sawhney & Alexander J. Sneyd & Kenji Watanabe & Takashi Taniguchi & Jooyoung Sung & Christoph Schnedermann & Akshay Rao, 2022. "Direct observation of ultrafast singlet exciton fission in three dimensions," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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