Strongly Emissive Lead‐Free 0D Cs3Cu2I5 Perovskites Synthesized by a Room Temperature Solvent Evaporation Crystallization for Down‐Conversion Light‐Emitting Devices and Fluorescent Inks

Strongly Emissive Lead‐Free 0D Cs3Cu2I5 Perovskites Synthesized by a Room Temperature Solvent Evaporation Crystallization for Down‐Conversion Light‐Emitting Devices and Fluorescent Inks

Lead‐free 0D metal halide perovskites are emerging environmentally friendly materials exhibiting large exciton binding energy, which have recently attracted great attention for their excellent light emission properties and favorable stability. Herein, solvent evaporation crystallization at room temp...

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Veröffentlicht in:Advanced optical materials 2020-04, Vol.8 (8), p.n/a
Hauptverfasser: Zhang, Fa, Zhao, Ziheng, Chen, Bingkun, Zheng, Hong, Huang, Lingling, Liu, Yue, Wang, Yongtian, Rogach, Andrey L.
Format: Artikel
Sprache:eng
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Crystallization
Crystals
Cs3Cu2I5
Direct laser writing
direct laser writing technology
Evaporation
Excitons
Fluorescence
fluorescent inks
Inks
lead‐free 0D perovskites
Light emission
Materials science
Metal halides
Optics
Perovskites
Phosphors
Photoluminescence
Polyvinylidene fluorides
Precursors
Room temperature
Solvents
Spin coating
UV‐LEDs
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container_issue 8
container_start_page
container_title Advanced optical materials
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creator Zhang, Fa
Zhao, Ziheng
Chen, Bingkun
Zheng, Hong
Huang, Lingling
Liu, Yue
Wang, Yongtian
Rogach, Andrey L.
description Lead‐free 0D metal halide perovskites are emerging environmentally friendly materials exhibiting large exciton binding energy, which have recently attracted great attention for their excellent light emission properties and favorable stability. Herein, solvent evaporation crystallization at room temperature is adopted to fabricate 0D Cs3Cu2I5 perovskite millimeter‐sized crystals, which show strong blue photoluminescence (PL) with quantum yield of up to 89%, a large Stockes shift and long (microsecond) PL lifetime, originating from self‐trapped excitons. UV pumped light‐emitting diodes are demonstrated by using Cs3Cu2I5 powder as a solid‐state phosphor, and the precursor solution of these perovskite crystals is used as a fluorescent ink. Furthermore, blue‐emitting composite Cs3Cu2I5/polyvinylidene fluoride films are produced by spin coating through the solvent evaporation and followed patterning using a direct laser writing technology, which are potentially useful for displays. Finally, the solvent evaporation crystallization method is expanded to fabricate yellow emissive CsCu2I3 crystals by changing the chemical molar ratio of precursor. Blue emitting 0D Cs3Cu2I5 perovskite crystals are fabricated by a solvent evaporation crystallization at room temperature. UV pumped LEDs based on Cs3Cu2I5 powder are realized. Patterning of blue‐emitting composite Cs3Cu2I5/polyvinylidene fluoride films has been achieved using a direct laser writing technology.
doi_str_mv 10.1002/adom.201901723
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Herein, solvent evaporation crystallization at room temperature is adopted to fabricate 0D Cs3Cu2I5 perovskite millimeter‐sized crystals, which show strong blue photoluminescence (PL) with quantum yield of up to 89%, a large Stockes shift and long (microsecond) PL lifetime, originating from self‐trapped excitons. UV pumped light‐emitting diodes are demonstrated by using Cs3Cu2I5 powder as a solid‐state phosphor, and the precursor solution of these perovskite crystals is used as a fluorescent ink. Furthermore, blue‐emitting composite Cs3Cu2I5/polyvinylidene fluoride films are produced by spin coating through the solvent evaporation and followed patterning using a direct laser writing technology, which are potentially useful for displays. Finally, the solvent evaporation crystallization method is expanded to fabricate yellow emissive CsCu2I3 crystals by changing the chemical molar ratio of precursor. Blue emitting 0D Cs3Cu2I5 perovskite crystals are fabricated by a solvent evaporation crystallization at room temperature. UV pumped LEDs based on Cs3Cu2I5 powder are realized. 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subjects Crystallization
Crystals
Cs3Cu2I5
Direct laser writing
direct laser writing technology
Evaporation
Excitons
Fluorescence
fluorescent inks
Inks
lead‐free 0D perovskites
Light emission
Materials science
Metal halides
Optics
Perovskites
Phosphors
Photoluminescence
Polyvinylidene fluorides
Precursors
Room temperature
Solvents
Spin coating
UV‐LEDs
title Strongly Emissive Lead‐Free 0D Cs3Cu2I5 Perovskites Synthesized by a Room Temperature Solvent Evaporation Crystallization for Down‐Conversion Light‐Emitting Devices and Fluorescent Inks
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