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Non-monotonic size-dependent exciton radiative lifetime in CsPbBr3 nanocrystals

Author

Listed:
  • Abdullah S. Abbas

    (University of Berkeley
    The University of Chicago)

  • Daniel Chabeda

    (University of California)

  • Daniel Weinberg

    (University of California
    Materials Sciences Division)

  • David T. Limmer

    (University of California
    Materials Sciences Division
    Kavli Energy NanoScience Institute)

  • Eran Rabani

    (University of California
    Materials Sciences Division
    Tel Aviv University)

  • A. Paul Alivisatos

    (University of Berkeley
    University of California
    Materials Sciences Division
    The University of Chicago)

Abstract

Lead halide perovskite nanocrystals have attracted intense interest due to their desirable optical properties, diverse structural features, and size-tunable excitonic structure. Here we show that, under ambient conditions, a non-monotonic trend in radiative lifetime emerges from the interplay of size, lattice symmetry and excitonic structure. Small nanocrystals exhibit long radiative lifetimes due to weakly emissive excitons, but the oscillator strength increases and shortens the lifetime for nanocrystals approaching intermediate confinement. For larger nanocrystals with higher exciton density of states (DOS), the radiative lifetime is lengthened due to depopulation of the bright exciton manifold into thermally accessible dim states. A size-dependent structural symmetry lowering transition from cubic to orthorhombic is observed by XRD and MD simulations, and the non-monotonic radiative lifetime trend emerges only in lower symmetry structures with an increased dim exciton DOS. These findings shed light on the impact of nanocrystal size and structure on radiative lifetime and pave the way for tailored optical materials in various optical applications.

Suggested Citation

  • Abdullah S. Abbas & Daniel Chabeda & Daniel Weinberg & David T. Limmer & Eran Rabani & A. Paul Alivisatos, 2025. "Non-monotonic size-dependent exciton radiative lifetime in CsPbBr3 nanocrystals," Nature Communications, Nature, vol. 16(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60848-5
    DOI: 10.1038/s41467-025-60848-5
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    References listed on IDEAS

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    1. Michael A. Becker & Roman Vaxenburg & Georgian Nedelcu & Peter C. Sercel & Andrew Shabaev & Michael J. Mehl & John G. Michopoulos & Samuel G. Lambrakos & Noam Bernstein & John L. Lyons & Thilo Stöferl, 2018. "Bright triplet excitons in caesium lead halide perovskites," Nature, Nature, vol. 553(7687), pages 189-193, January.
    2. Chenglian Zhu & Simon C. Boehme & Leon G. Feld & Anastasiia Moskalenko & Dmitry N. Dirin & Rainer F. Mahrt & Thilo Stöferle & Maryna I. Bodnarchuk & Alexander L. Efros & Peter C. Sercel & Maksym V. Ko, 2024. "Single-photon superradiance in individual caesium lead halide quantum dots," Nature, Nature, vol. 626(7999), pages 535-541, February.
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