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Rare earth ion doped LuCl3 glass ceramics and preparation method thereof

A technology of glass-ceramic and rare-earth ions, applied in the field of rare-earth ion-doped glass-ceramic, can solve the problems of affecting up-conversion luminescence output, poor sulfide physical and chemical properties, etc., and achieve excellent up-conversion performance, good mechanical properties, blue The effect of high violet light transmittance

Inactive Publication Date: 2016-02-10
NINGBO UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, chloride transparent glass-ceramics is mainly used as scintillation and up-conversion luminescent materials, such as the publication number CN103382089, and the name is "Containing Cs 3 LaCl 6 Nanocrystalline transparent sulfur-halogen glass ceramics and its preparation" invention patent application discloses doped Nd 3+ or Er 3+ ions, with Cs 3 LaCl 6 The glass-ceramic is a microcrystalline phase and the glass phase is a sulfide, but the physical and chemical properties of the sulfide are worse than that of the oxide, and it is opaque at short wavelengths of visible light, which affects the up-conversion luminous output; for example, the publication number is CN103951213, and the name is "Rare earth ion doped LuCl 3 The invention patent application of "glass ceramics and its preparation method" also discloses that a crystallite phase is LuCl 3 , the glass phase is SiO 2 Mainly glass ceramics, doped with rare earth ions as Ce 3+ 、Eu 3+ , Tb 3+ 、Pr 3+ and Nd 3+ One of them, prepared by melt quenching method and subsequent heat treatment, has good scintillation performance, and is used as a scintillation luminescent material
But there is no trivalent rare earth ion Yb 3+ 、Er 3+ 、Tm 3+ and Ho 3+ Doped LuCl 3 Published reports on the use of glass-ceramics in upconversion luminescent materials

Method used

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  • Rare earth ion doped LuCl3 glass ceramics and preparation method thereof
  • Rare earth ion doped LuCl3 glass ceramics and preparation method thereof
  • Rare earth ion doped LuCl3 glass ceramics and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] T m 3+ , Yb 3+ doped LuCl 3 The molar percentage composition of glass ceramics is: SiO 2 80.5mol%, LuCl 3 15mol%, TmCl 3 0.5mol%, YbCl 3 4mol%, the process for preparing glass-ceramics of the above composition is as follows:

[0021] (1) Weigh lutetium acetate, ytterbium acetate, and thulium acetate, and the parts are the LuCl in the above mole percentage composition. 3 , YbCl 3 , TmCl 3 Weigh the molar percentage content, dissolve the above-mentioned acetate in deionized water to form an acetate solution, add trichloroacetic acid to the acetate solution to obtain a transparent mixed solution, wherein trichloroacetic acid and acetate solution The molar ratio of the sum of metal ions is 3:1;

[0022] (2) SiO in the same molar percentage composition as step (1) 2 The molar percentage content takes ethyl orthosilicate and dissolves it in ethanol to obtain ethyl orthosilicate solution, then mixes the mixed solution prepared in step (1) with ethyl orthosilicate sol...

Embodiment 2

[0027] Er 3+ , Yb 3+ doped LuCl 3 The molar percentage composition of glass-ceramic is: SiO 2 80mol%, LuCl 3 16mol%, ErCl 3 0.5mol%, YbCl 3 3.5mol%, after the preparation and heat treatment process identical with embodiment 1, obtain transparent rare earth ion Er 3+ , Yb 3+ Doped LuCl 3 Glass-ceramic. The glass-ceramic was measured with a TRIAX550 fluorescence spectrometer, under the excitation condition of a 970nm laser, strong green and red upconversion luminescence were observed.

Embodiment 3

[0029] Er 3+ 、Tm 3+ , Yb 3+ doped LuCl 3 The molar percentage composition of glass-ceramic is: SiO 2 82mol%, LuCl 3 14mol%, ErCl 3 0.1mol%, TmCl 3 0.1mol%, YbCl 3 3.8mol%, after the preparation and heat treatment process identical with embodiment 1, obtain transparent rare earth ion Er 3+ 、Tm 3+ , Yb 3+ Doped LuCl 3 Glass-ceramic. The glass-ceramic was measured with a TRIAX550 fluorescence spectrometer, under the excitation condition of a 970nm laser, strong blue, green and red upconversion luminescence were observed.

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Abstract

The invention discloses rare earth ion doped LuCl3 glass ceramics. The rare earth ion doped LuCl3 glass ceramics are prepared from SiO2 80-91.5 mol%, LuCl3 8-16 mol% and LnCl3 0.5-4.5 mol%, wherein the LnCl3 is at least one of YbCl3, ErCl3, TmCl3 and HoCl3. The rare earth ion doped LuCl3 glass ceramics have the advantages that the prepared rare earth ion doped LuCl3 glass ceramics are transparent, are resistant to deliquescence, are good in mechanical performance and higher in blue and violet light transmittance, have the performances of low phonon energy, high upconversion efficiency and the like, enable the efficiency of an upconversion laser to be improved greatly, a preparation method of the glass ceramics is simple, and the production cost is lower.

Description

technical field [0001] The present invention relates to a rare earth ion doped glass ceramics, in particular to a rare earth ion doped LuCl used as an up-conversion luminescent material 3 Glass-ceramic and its preparation method. Background technique [0002] The up-conversion luminescence of rare earth ions refers to the phenomenon that when a sample doped with rare earth ions is irradiated with excitation light with a longer wavelength, light with a wavelength shorter than that of the excitation light is emitted. Utilizing the up-conversion properties of rare earth ions, an inexpensive fiber laser that can work at room temperature and continuously output violet-blue-green light can be obtained. Up-conversion lasers can be used in various fields such as color displays, data storage, information technology, laser printing, and medical treatment. To improve the efficiency of upconversion luminescence, it is necessary to reduce the phonon energy of the host material, mainly ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C10/16
Inventor 欧阳绍业张约品张为欢张志雄王倩
Owner NINGBO UNIV
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