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Control of n -Phase Distribution in Quasi Two-Dimensional Perovskite for Efficient Blue Light-Emitting Diodes.

Huixin LiSiliang HuHongyue WangXiuhai ZhangYu TongHeng QiPengfei GuoGuanguan ZhaoJialiang GaoPeng LiuJianyang ZangHongxing HaoTaihong LiuHongtao BianYouqian ZhangYang WeiYangyang GuoLei ZhangYu FangHongqiang Wang
Published in: ACS applied materials & interfaces (2023)
Pure-bromide quasi-2D perovskite (PBQ-2DP) promises high-performance light-emitting diodes (LEDs), while a challenge remains on control over its n -phase distribution for bright true-blue emission. Present work addresses the challenge through exploring the passivation molecule of amino acid with reinforced binding energy, which generates narrow n -phase distribution preferentially at n = 3 with true blue emission at 478 nm. Consequently, a peak external quantum efficiency of 5.52% and a record brightness of 512 cd m -2 are achieved on the PBQ-2DP-based true blue PeLED, these both values located among the top in the records of similar devices. We further reveal that the electron-phonon coupling results in the red-shifted emission in the PBQ-2DP film, suggesting that the view of n -phase distribution dominated true-blue emission in PBQ-2DP needs to be revisited, pointing out a guideline of electron-phonon coupling suppression to relieve the strait of realizing true blue or even deep blue emission in the PBQ-2DP film.
Keyphrases
  • light emitting
  • room temperature
  • solid state
  • solar cells
  • amino acid
  • molecular dynamics
  • photodynamic therapy
  • electron transfer
  • binding protein
  • transcription factor