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Surface-binding molecular multipods strengthen the halide perovskite lattice and boost luminescence

Cited 1 time in Web of Science Cited 1 time in Scopus
Authors

Kim, Dong-Hyeok; Woo, Seung-Je; Huelmo, Claudia Pereyra; Park, Min-Ho; Schankler, Aaron M.; Dai, Zhenbang; Heo, Jung-Min; Kim, Sungjin; Reuveni, Guy; Kang, Sungsu; Kim, Joo Sung; Yun, Hyung Joong; Park, Jinwoo; Park, Jungwon; Yaffe, Omer; Rappe, Andrew M.; Lee, Tae-Woo

Issue Date
2024-07
Publisher
Nature Publishing Group
Citation
Nature Communications, Vol.15 No.1, p. 6245
Abstract
Reducing the size of perovskite crystals to confine excitons and passivating surface defects has fueled a significant advance in the luminescence efficiency of perovskite light-emitting diodes (LEDs). However, the persistent gap between the optical limit of electroluminescence efficiency and the photoluminescence efficiency of colloidal perovskite nanocrystals (PeNCs) suggests that defect passivation alone is not sufficient to achieve highly efficient colloidal PeNC-LEDs. Here, we present a materials approach to controlling the dynamic nature of the perovskite surface. Our experimental and theoretical studies reveal that conjugated molecular multipods (CMMs) adsorb onto the perovskite surface by multipodal hydrogen bonding and van der Waals interactions, strengthening the near-surface perovskite lattice and reducing ionic fluctuations which are related to nonradiative recombination. The CMM treatment strengthens the perovskite lattice and suppresses its dynamic disorder, resulting in a near-unity photoluminescence quantum yield of PeNC films and a high external quantum efficiency (26.1%) of PeNC-LED with pure green emission that matches the Rec.2020 color standard for next-generation vivid displays. Kim et al. report a strategy to reduce the dynamic disorder of the perovskite lattice by using CMMs that adsorb on the surface of PeNCs via van der Waals interactions and hydrogen bonding. The resulting pure green LEDs satisfying the Rec. 2020 color standard show a high EQE of 26.1%.
URI
https://hdl.handle.net/10371/209025
DOI
https://doi.org/10.1038/s41467-024-49751-7
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