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Suppressing phase disproportionation in quasi-2D perovskite light-emitting diodes

Author

Listed:
  • Kang Wang

    (Purdue University)

  • Zih-Yu Lin

    (Purdue University)

  • Zihan Zhang

    (Florida State University)

  • Linrui Jin

    (Purdue University)

  • Ke Ma

    (Purdue University)

  • Aidan H. Coffey

    (Purdue University)

  • Harindi R. Atapattu

    (University of Kentucky)

  • Yao Gao

    (Purdue University)

  • Jee Yung Park

    (Purdue University)

  • Zitang Wei

    (Purdue University)

  • Blake P. Finkenauer

    (Purdue University)

  • Chenhui Zhu

    (Lawrence Berkeley National Laboratory)

  • Xiangeng Meng

    (Qilu University of Technology (Shandong Academy of Sciences))

  • Sarah N. Chowdhury

    (Purdue University)

  • Zhaoyang Chen

    (University of Houston)

  • Tanguy Terlier

    (Rice University)

  • Thi-Hoai Do

    (National Cheng Kung University)

  • Yan Yao

    (University of Houston)

  • Kenneth R. Graham

    (University of Kentucky)

  • Alexandra Boltasseva

    (Purdue University)

  • Tzung-Fang Guo

    (National Cheng Kung University)

  • Libai Huang

    (Purdue University)

  • Hanwei Gao

    (Florida State University)

  • Brett M. Savoie

    (Purdue University)

  • Letian Dou

    (Purdue University
    Purdue University)

Abstract

Electroluminescence efficiencies and stabilities of quasi-two-dimensional halide perovskites are restricted by the formation of multiple-quantum-well structures with broad and uncontrollable phase distributions. Here, we report a ligand design strategy to substantially suppress diffusion-limited phase disproportionation, thereby enabling better phase control. We demonstrate that extending the π-conjugation length and increasing the cross-sectional area of the ligand enables perovskite thin films with dramatically suppressed ion transport, narrowed phase distributions, reduced defect densities, and enhanced radiative recombination efficiencies. Consequently, we achieved efficient and stable deep-red light-emitting diodes with a peak external quantum efficiency of 26.3% (average 22.9% among 70 devices and cross-checked) and a half-life of ~220 and 2.8 h under a constant current density of 0.1 and 12 mA/cm2, respectively. Our devices also exhibit wide wavelength tunability and improved spectral and phase stability compared with existing perovskite light-emitting diodes. These discoveries provide critical insights into the molecular design and crystallization kinetics of low-dimensional perovskite semiconductors for light-emitting devices.

Suggested Citation

  • Kang Wang & Zih-Yu Lin & Zihan Zhang & Linrui Jin & Ke Ma & Aidan H. Coffey & Harindi R. Atapattu & Yao Gao & Jee Yung Park & Zitang Wei & Blake P. Finkenauer & Chenhui Zhu & Xiangeng Meng & Sarah N. , 2023. "Suppressing phase disproportionation in quasi-2D perovskite light-emitting diodes," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36118-7
    DOI: 10.1038/s41467-023-36118-7
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