4.8 Article

Suppressing thermal quenching via defect passivation for efficient quasi-2D perovskite light-emitting diodes

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LIGHT-SCIENCE & APPLICATIONS
卷 11, 期 1, 页码 -

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SPRINGERNATURE
DOI: 10.1038/s41377-022-00761-4

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  1. National Natural Science Foundation of China [22075277, 22109156]
  2. China Postdoctoral Science Foundation [2021M703129]

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Emission thermal quenching is a common issue in quasi-2D perovskite emitters and greatly reduces the luminescence efficiency of PeLEDs. In this study, a passivation strategy is developed to investigate and suppress the thermal quenching, revealing the important role of defects. The defect-passivated PeLEDs achieve improved external quantum efficiency and longer operation lifetime.
Emission thermal quenching is commonly observed in quasi-2D perovskite emitters, which causes the severe drop in luminescence efficiency for the quasi-2D perovskite light-emitting diodes (PeLEDs) during practical operations. However, this issue is often neglected and rarely studied, and the root cause of the thermal quenching has not been completely revealed now. Here, we develop a passivation strategy via the 2,7-dibromo-9,9-bis (3'-diethoxylphosphorylpropyl)-fluorene to investigate and suppress the thermal quenching. The agent can effectively passivate coordination-unsaturated Pb2+ defects of both surface and bulk of the film without affecting the perovskite crystallization, which helps to more truly demonstrate the important role of defects in thermal quenching. And our results reveal the root cause that the quenching will be strengthened by the defect-promoted exciton-phonon coupling. Ultimately, the PeLEDs with defect passivation achieve an improved external quantum efficiency (EQE) over 22% and doubled operation lifetime at room temperature, and can maintain about 85% of the initial EQE at 85 degrees C, much higher than 17% of the control device. These findings provide an important basis for fabricating practical PeLEDs for lighting and displays.

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