Efficient single-component white light emitting diodes enabled by lanthanide ions doped lead halide perovskites via controlling Förster energy transfer and specific defect clearance

Currently, a major challenge for metal-halide perovskite light emitting diodes (LEDs) is to achieve stable and efficient white light emission due to halide ion segregation. Herein, we report a promising method to fabricate white perovskite LEDs using lanthanide (Ln 3+ ) ions doped CsPbCl 3 perovskit...

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Published inLight, science & applications Vol. 11; no. 1; p. 340
Main Authors Sun, Rui, Zhou, Donglei, Ding, Yujiao, Wang, Yue, Wang, Yuqi, Zhuang, Xinmeng, Liu, Shuainan, Ding, Nan, Wang, Tianyuan, Xu, Wen, Song, Hongwei
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 06.12.2022
Springer Nature B.V
Nature Publishing Group
Subjects
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639/624/1020/1089
639/624/399/1017
Cadmium
Creatine
Electrical properties
Ions
Lasers
Light emitting diodes
Microwaves
Optical and Electronic Materials
Optical Devices
Optics
Phosphocreatine
Phospholipids
Photonics
Physics
Physics and Astronomy
RF and Optical Engineering
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Abstract Currently, a major challenge for metal-halide perovskite light emitting diodes (LEDs) is to achieve stable and efficient white light emission due to halide ion segregation. Herein, we report a promising method to fabricate white perovskite LEDs using lanthanide (Ln 3+ ) ions doped CsPbCl 3 perovskite nanocrystals (PeNCs). First, K + ions are doped into the lattice to tune the perovskite bandgap by partially substituting Cs + ions, which are well matched to the transition energy of some Ln 3+ ions from the ground state to the excited state, thereby greatly improving the Förster energy transfer efficiency from excitons to Ln 3+ ions. Then, creatine phosphate (CP), a phospholipid widely found in organisms, serves as a tightly binding surface-capping multi-functional ligand which regulates the film formation and enhances the optical and electrical properties of PeNC film. Consequently, the Eu 3+ doped PeNCs based-white LEDs show a peak luminance of 1678 cd m -2 and a maximum external quantum efficiency (EQE) of 5.4%, demonstrating excellent performance among existing white PeNC LEDs from a single chip. Furthermore, the method of bandgap modulation and the defect passivation were generalized to other Ln 3+ ions doped perovskite LEDs and successfully obtained improved electroluminescence (EL). This work demonstrates the comprehensive and universal strategies in the realization of highly efficient and stable white LEDs via single-component Ln 3+ ions doped PeNCs, which provides an optimal solution for the development of low-cost and simple white perovskite LEDs. Highly efficient and stable white LEDs were fabricated based on Eu 3+ doped Cs x K 1-x PbCl 3 PeNCs, in which the PeNC film experienced the band engineering and defect passivation treatment.
AbstractList Currently, a major challenge for metal-halide perovskite light emitting diodes (LEDs) is to achieve stable and efficient white light emission due to halide ion segregation. Herein, we report a promising method to fabricate white perovskite LEDs using lanthanide (Ln 3+ ) ions doped CsPbCl 3 perovskite nanocrystals (PeNCs). First, K + ions are doped into the lattice to tune the perovskite bandgap by partially substituting Cs + ions, which are well matched to the transition energy of some Ln 3+ ions from the ground state to the excited state, thereby greatly improving the Förster energy transfer efficiency from excitons to Ln 3+ ions. Then, creatine phosphate (CP), a phospholipid widely found in organisms, serves as a tightly binding surface-capping multi-functional ligand which regulates the film formation and enhances the optical and electrical properties of PeNC film. Consequently, the Eu 3+ doped PeNCs based-white LEDs show a peak luminance of 1678 cd m -2 and a maximum external quantum efficiency (EQE) of 5.4%, demonstrating excellent performance among existing white PeNC LEDs from a single chip. Furthermore, the method of bandgap modulation and the defect passivation were generalized to other Ln 3+ ions doped perovskite LEDs and successfully obtained improved electroluminescence (EL). This work demonstrates the comprehensive and universal strategies in the realization of highly efficient and stable white LEDs via single-component Ln 3+ ions doped PeNCs, which provides an optimal solution for the development of low-cost and simple white perovskite LEDs. Highly efficient and stable white LEDs were fabricated based on Eu 3+ doped Cs x K 1-x PbCl 3 PeNCs, in which the PeNC film experienced the band engineering and defect passivation treatment.
Abstract Currently, a major challenge for metal-halide perovskite light emitting diodes (LEDs) is to achieve stable and efficient white light emission due to halide ion segregation. Herein, we report a promising method to fabricate white perovskite LEDs using lanthanide (Ln 3+ ) ions doped CsPbCl 3 perovskite nanocrystals (PeNCs). First, K + ions are doped into the lattice to tune the perovskite bandgap by partially substituting Cs + ions, which are well matched to the transition energy of some Ln 3+ ions from the ground state to the excited state, thereby greatly improving the Förster energy transfer efficiency from excitons to Ln 3+ ions. Then, creatine phosphate (CP), a phospholipid widely found in organisms, serves as a tightly binding surface-capping multi-functional ligand which regulates the film formation and enhances the optical and electrical properties of PeNC film. Consequently, the Eu 3+ doped PeNCs based-white LEDs show a peak luminance of 1678 cd m -2 and a maximum external quantum efficiency (EQE) of 5.4%, demonstrating excellent performance among existing white PeNC LEDs from a single chip. Furthermore, the method of bandgap modulation and the defect passivation were generalized to other Ln 3+ ions doped perovskite LEDs and successfully obtained improved electroluminescence (EL). This work demonstrates the comprehensive and universal strategies in the realization of highly efficient and stable white LEDs via single-component Ln 3+ ions doped PeNCs, which provides an optimal solution for the development of low-cost and simple white perovskite LEDs.
Currently, a major challenge for metal-halide perovskite light emitting diodes (LEDs) is to achieve stable and efficient white light emission due to halide ion segregation. Herein, we report a promising method to fabricate white perovskite LEDs using lanthanide (Ln3+) ions doped CsPbCl3 perovskite nanocrystals (PeNCs). First, K+ ions are doped into the lattice to tune the perovskite bandgap by partially substituting Cs+ ions, which are well matched to the transition energy of some Ln3+ ions from the ground state to the excited state, thereby greatly improving the Förster energy transfer efficiency from excitons to Ln3+ ions. Then, creatine phosphate (CP), a phospholipid widely found in organisms, serves as a tightly binding surface-capping multi-functional ligand which regulates the film formation and enhances the optical and electrical properties of PeNC film. Consequently, the Eu3+ doped PeNCs based-white LEDs show a peak luminance of 1678 cd m-2 and a maximum external quantum efficiency (EQE) of 5.4%, demonstrating excellent performance among existing white PeNC LEDs from a single chip. Furthermore, the method of bandgap modulation and the defect passivation were generalized to other Ln3+ ions doped perovskite LEDs and successfully obtained improved electroluminescence (EL). This work demonstrates the comprehensive and universal strategies in the realization of highly efficient and stable white LEDs via single-component Ln3+ ions doped PeNCs, which provides an optimal solution for the development of low-cost and simple white perovskite LEDs.Highly efficient and stable white LEDs were fabricated based on Eu3+ doped CsxK1-xPbCl3 PeNCs, in which the PeNC film experienced the band engineering and defect passivation treatment.
Highly efficient and stable white LEDs were fabricated based on Eu3+ doped CsxK1-xPbCl3 PeNCs, in which the PeNC film experienced the band engineering and defect passivation treatment.
ArticleNumber 340
Author Liu, Shuainan
Wang, Yue
Wang, Yuqi
Song, Hongwei
Xu, Wen
Zhou, Donglei
Ding, Yujiao
Wang, Tianyuan
Zhuang, Xinmeng
Ding, Nan
Sun, Rui
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Snippet Currently, a major challenge for metal-halide perovskite light emitting diodes (LEDs) is to achieve stable and efficient white light emission due to halide ion...
Abstract Currently, a major challenge for metal-halide perovskite light emitting diodes (LEDs) is to achieve stable and efficient white light emission due to...
Highly efficient and stable white LEDs were fabricated based on Eu3+ doped CsxK1-xPbCl3 PeNCs, in which the PeNC film experienced the band engineering and...
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639/624/1020/1089
639/624/399/1017
Cadmium
Creatine
Electrical properties
Ions
Lasers
Light emitting diodes
Microwaves
Optical and Electronic Materials
Optical Devices
Optics
Phosphocreatine
Phospholipids
Photonics
Physics
Physics and Astronomy
RF and Optical Engineering
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Title Efficient single-component white light emitting diodes enabled by lanthanide ions doped lead halide perovskites via controlling Förster energy transfer and specific defect clearance
URI https://link.springer.com/article/10.1038/s41377-022-01027-9
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