Persistent luminescence found in Mg2+ and Pr3+ co-doped LiNbO3 single crystal

Lin, Shaopeng; Xiong, Chenwei; Ma, Decai; Li, Huashan; Long, Siwei; Wang, Biao

doi:10.1039/c8tc03783c

Cited by 32 publications

(13 citation statements)

References 44 publications

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“…Figure S1B presents the reciprocal SWIR persistent luminescence intensity ( I –1 ) versus decay time ( t ). The I –1 – t result in the initial decay stage can be well fitted using a linear equation I –1 = 3.05 × 10 –7 t + 2.6 × 10 –4 , indicating a tunneling process in the initially fast decay process. − …”

Section: Resultsmentioning

confidence: 90%

Ni²⁺-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

Yuan¹,

Jin

Zhu³

et al. 2020

ACS Sustainable Chem. Eng.

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Functional phosphors with shortwave infrared (SWIR) persistent luminescence have attracted an ever-increasing interest from scientists owning to the self-sustainable emission for deeper tissue penetration, real-time monitoring, and nondestructive analysis. In this work, we report for the first time on the broadband wavelength-tunable SWIR luminescence and photochromism properties of divalent nickel-doped yttrium aluminum gallium garnet solid solutions. The crystal-field-driven wavelength-tunable superbroad band emission within SWIR wavelength region, attributed to the 3 T 2 ( 3 F) → 3 A 2 ( 3 F) transitions of the Ni 2+ ions, can be controllably adjusted. The observation of SWIR longpersistent luminescence also can be modified by bandgap engineering via the simple adjustment of the Ga/Al ratio. Besides, the accompanied observation of photochromism, i.e., the reversible body color change by alternative UV and visible illumination/ heating treatment, shows robust fatigue resistance. The nature of traps, color centers, and trapping and releasing of electrons are studied by electron paramagnetic resonance and thermoluminescence. Finally, an energy level schematic diagram is established to discuss the SWIR persistent luminescence and photochromism mechanisms in detail. This work opens an avenue to motivate researchers to rationally design and purposely explore novel bifunctional phosphors with broad-band wavelength-tunable SWIR persistent luminescence and photochromism.

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Section: Resultsmentioning

confidence: 90%

Ni²⁺-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

Yuan¹,

Jin

Zhu³

et al. 2020

ACS Sustainable Chem. Eng.

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“…A novel red lithium niobate phosphor, LiNbO 3 :Mg 2+ ,Pr 3+ , was reported and the niobate matrix offered optical, electronic and stability advantages. 57 Perovskite-like single crystals of LiNbO 3 :Mg 2+ ,Pr 3+ were synthesized via the solid-state method, followed by the Czochralski method. The crystal structure of the formed LiNbO 3 perovskite is elucidated in Fig.…”

Section: Modelsmentioning

confidence: 99%

Recent progress on lanthanide-based long persistent phosphors: an overview

Vaidyanathan

2023

J. Mater. Chem. C

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“…Sensitivity is the key parameter of temperature sensors. The absolute sensitivity S a and relative sensitivity S r can be calculated and expressed as follows in equations (8) and (9).…”

Section: Optical Temperature Sensingmentioning

confidence: 99%

“…Niobates have the advantages of good electro‐optic photo elasticity and chemical stability as well as easy synthesis 7 . Moreover, niobates have the potential for PersL properties and the PersL properties of rare earth ion‐doped phosphors such as LiNbO 3 : Mg 2+ , Pr 3+ , 8 NaNbO 3 : Pr 3+ 9 . Therefore, we choose the CaNb 2 O 6 (CNO) host as the research object, Tb 3+ ion as doped ions can form luminescent centers due to 5 d 4 ‐ 7 f j transitions, and it has been widely used as the green luminescence activator of luminescent materials.…”

Section: Introductionmentioning

confidence: 99%

High‐temperature persistent luminescence and visual dual‐emitting optical temperature sensing in self‐activated CaNb₂O₆: Tb³⁺ phosphor

et al. 2020

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The long persistent luminescence (PersL) and color adjustable properties in high‐temperature environment are of great significance for luminescent materials in the fields of multiple anti‐counterfeiting, biological imaging, and optical temperature sensing (OTS). In this work, a series of self‐activated CaNb2O6 (CNO): Tb3+ phosphors have been successfully synthesized by solid‐state reaction route, the OTS, and temperature‐dependent PersL of these phosphors is carried out and investigated in detail. Relying on the energy transfer from host to the activator Tb3+ ion, the visual color‐tunable emissions from blue to green were detected with the increase of temperature and the maximum absolute and relative sensitivities reach 0.955% K‐1 and 1.243% K‐1. Moreover, the temperature‐dependent PersL characteristics were investigated systematically, and the initial brightness and the lasting time all reach a maximum value at 323 K in the representative CNO: 1%Tb3+ sample. All the results show that the high‐temperature persistent phosphor has potential applications in OTS and anti‐counterfeiting field.

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Persistent luminescence found in Mg²⁺ and Pr³⁺ co-doped LiNbO₃ single crystal

Abstract: Persistent luminescence was found in Mg2+ and Pr3+ co-doped congruent LiNbO3 single crystal wherein the Mg2+ plays a key role.

Cited by 32 publications

References 44 publications

Ni²⁺-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

Ni²⁺-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

Recent progress on lanthanide-based long persistent phosphors: an overview

High‐temperature persistent luminescence and visual dual‐emitting optical temperature sensing in self‐activated CaNb₂O₆: Tb³⁺ phosphor

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Persistent luminescence found in Mg2+ and Pr3+ co-doped LiNbO3 single crystal

Abstract: Persistent luminescence was found in Mg2+ and Pr3+ co-doped congruent LiNbO3 single crystal wherein the Mg2+ plays a key role.

Cited by 32 publications

References 44 publications

Ni2+-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

Ni2+-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

Recent progress on lanthanide-based long persistent phosphors: an overview

High‐temperature persistent luminescence and visual dual‐emitting optical temperature sensing in self‐activated CaNb2O6: Tb3+ phosphor

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Persistent luminescence found in Mg²⁺ and Pr³⁺ co-doped LiNbO₃ single crystal

Ni²⁺-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

Ni²⁺-Doped Yttrium Aluminum Gallium Garnet Phosphors: Bandgap Engineering for Broad-Band Wavelength-Tunable Shortwave-Infrared Long-Persistent Luminescence and Photochromism

High‐temperature persistent luminescence and visual dual‐emitting optical temperature sensing in self‐activated CaNb₂O₆: Tb³⁺ phosphor