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Bright Blue Emission Lead-Free Halides with Narrow Bandwidth Enabled by Oversaturated Europium Doping

Yizhao Qing, Bing Han, Runnan Yu, Zhiming Zhou, Guangzheng Wu, Changxiao Li, Peijin Ma, Chengyang Zhang, Zhan’ao Tan

2024The Journal of Physical Chemistry Letters12 citationsDOI

Abstract

Eu 2+ -based lead-free metal halide nanocrystals (LFMH NCs), including CsEuCl 3 NCs and CsX:Eu 2+ NCs (X = Cl or Br), exhibit highly efficient narrow-band blue photoluminescence, making them competitive candidates for next-generation lighting and displays. However, the growing mechanism of the aforementioned NCs lacks in-depth study, which hinders the development of Eu 2+ -based nanomaterials. Herein, we demonstrate the colloidal synthesis of CsBr:Eu 2+ NCs based on an air-stable europium source. The NCs show deep blue photoluminescence centered at 444 nm, with a maximum photoluminescence quantum yield (PLQY) reaching 53.4% and a fwhm of 30 nm. We further reveal the mechanism that determines CsBr host growth and Eu 2+ doping in CsBr:Eu 2+ nanocrystals, especially dopant trapping and self-purification, that determine the PLQY level. Pure white, warm white, and cold white LEDs are fabricated based on CsBr:Eu 2+ NCs, red and green phosphors, and their performance suits the needs of high-quality lighting.

Topics & Concepts

PhotoluminescenceEuropiumQuantum yieldDopingPhosphorMaterials scienceNanocrystalDopantFull width at half maximumHalideOptoelectronicsLuminescenceNanotechnologyAnalytical Chemistry (journal)OpticsChemistryInorganic chemistryFluorescencePhysicsChromatographyPerovskite Materials and ApplicationsQuantum Dots Synthesis And Properties2D Materials and Applications
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