Recent Advances in Bismuth Ion‐Doped Phosphor Materials: Structure Design, Tunable Photoluminescence Properties, and Application in White LEDs

Recent Advances in Bismuth Ion‐Doped Phosphor Materials: Structure Design, Tunable Photoluminescence Properties, and Application in White LEDs

Bismuth ion is an excellent activator and sensitizer for luminescent materials, which has been extensively studied during the recent decades. Bi3+‐doped phosphors have received considerable attention for their abundant emission colors covering the whole visible light region under ultraviolet (UV) an...

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Veröffentlicht in:Advanced optical materials 2020-08, Vol.8 (16), p.n/a
Hauptverfasser: Dang, Peipei, Liu, Dongjie, Li, Guogang, Al Kheraif, Abdulaziz A., Lin, Jun
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Biomedical materials
Bismuth
bismuth‐doped phosphors
Crystal structure
design strategies
energy transfer
Light emission
Light emitting diodes
Materials science
Optical properties
Optics
Perovskites
Phosphors
Photoluminescence
white LEDs
White light
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container_issue 16
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container_title Advanced optical materials
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creator Dang, Peipei
Liu, Dongjie
Li, Guogang
Al Kheraif, Abdulaziz A.
Lin, Jun
description Bismuth ion is an excellent activator and sensitizer for luminescent materials, which has been extensively studied during the recent decades. Bi3+‐doped phosphors have received considerable attention for their abundant emission colors covering the whole visible light region under ultraviolet (UV) and near ultraviolet (n‐UV) excitation, in flexible crystal structures. These phosphor materials have demonstrated potential applications in solid‐state lighting, display, biomedical, and optical sensing. Herein, the recent advances in the structure design and photoluminescence properties of Bi3+‐doped phosphors together with their white light emitting diode (WLED) applications are reviewed. The design strategies for crystal structure and the discovery of typical phosphors are systematically summarized, and the luminescent properties of Bi3+ can be effectively regulated by these strategies. Then, the design of polychromatic Bi3+‐doped phosphors produced by different doping ions is described, which in turn can adjust the emission colors and realize a single‐component white‐light emission. This review will promote researches on the discovery of new Bi3+‐doped phosphor materials, and the design strategies could provide an extensive guidance for the discovery and preparation of high‐efficient phosphors with color‐tunable emission including white‐emission for WLEDs in the future. Additionally, research progress of Bi3+‐doped perovskite and Bi2+‐doped phosphor materials is briefly elucidated. Recent advances for emission tuning of Bi3+‐activated phosphor materials are based on regulated strategies: cation substitution, change of excitation, adjusting Bi3+ concentration, energy transfer, Bi defects and Bi2+–Bi3+ coexistence. These strategies will contribute to the development and discovery of new luminescent materials for high‐performance phosphor‐converted white light‐emitting devices.
doi_str_mv 10.1002/adom.201901993
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Bi3+‐doped phosphors have received considerable attention for their abundant emission colors covering the whole visible light region under ultraviolet (UV) and near ultraviolet (n‐UV) excitation, in flexible crystal structures. These phosphor materials have demonstrated potential applications in solid‐state lighting, display, biomedical, and optical sensing. Herein, the recent advances in the structure design and photoluminescence properties of Bi3+‐doped phosphors together with their white light emitting diode (WLED) applications are reviewed. The design strategies for crystal structure and the discovery of typical phosphors are systematically summarized, and the luminescent properties of Bi3+ can be effectively regulated by these strategies. Then, the design of polychromatic Bi3+‐doped phosphors produced by different doping ions is described, which in turn can adjust the emission colors and realize a single‐component white‐light emission. This review will promote researches on the discovery of new Bi3+‐doped phosphor materials, and the design strategies could provide an extensive guidance for the discovery and preparation of high‐efficient phosphors with color‐tunable emission including white‐emission for WLEDs in the future. Additionally, research progress of Bi3+‐doped perovskite and Bi2+‐doped phosphor materials is briefly elucidated. Recent advances for emission tuning of Bi3+‐activated phosphor materials are based on regulated strategies: cation substitution, change of excitation, adjusting Bi3+ concentration, energy transfer, Bi defects and Bi2+–Bi3+ coexistence. 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Bi3+‐doped phosphors have received considerable attention for their abundant emission colors covering the whole visible light region under ultraviolet (UV) and near ultraviolet (n‐UV) excitation, in flexible crystal structures. These phosphor materials have demonstrated potential applications in solid‐state lighting, display, biomedical, and optical sensing. Herein, the recent advances in the structure design and photoluminescence properties of Bi3+‐doped phosphors together with their white light emitting diode (WLED) applications are reviewed. The design strategies for crystal structure and the discovery of typical phosphors are systematically summarized, and the luminescent properties of Bi3+ can be effectively regulated by these strategies. Then, the design of polychromatic Bi3+‐doped phosphors produced by different doping ions is described, which in turn can adjust the emission colors and realize a single‐component white‐light emission. This review will promote researches on the discovery of new Bi3+‐doped phosphor materials, and the design strategies could provide an extensive guidance for the discovery and preparation of high‐efficient phosphors with color‐tunable emission including white‐emission for WLEDs in the future. Additionally, research progress of Bi3+‐doped perovskite and Bi2+‐doped phosphor materials is briefly elucidated. Recent advances for emission tuning of Bi3+‐activated phosphor materials are based on regulated strategies: cation substitution, change of excitation, adjusting Bi3+ concentration, energy transfer, Bi defects and Bi2+–Bi3+ coexistence. 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subjects Biomedical materials
Bismuth
bismuth‐doped phosphors
Crystal structure
design strategies
energy transfer
Light emission
Light emitting diodes
Materials science
Optical properties
Optics
Perovskites
Phosphors
Photoluminescence
white LEDs
White light
title Recent Advances in Bismuth Ion‐Doped Phosphor Materials: Structure Design, Tunable Photoluminescence Properties, and Application in White LEDs
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