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A kind of silicate fluorescent ceramics with full spectrum emission and preparation method thereof

A technology of fluorescent ceramics and silicate, which is applied in the field of silicate fluorescent ceramics and its preparation, can solve the problems of low color rendering index of white light LEDs, decreased light output efficiency of devices, weak absorption of excitation light, etc., and achieves high luminous efficiency, emission Wide wavelength range and good thermal stability

Active Publication Date: 2019-06-11
CHANGCHUN INST OF OPTICS FINE MECHANICS & PHYSICS CHINESE ACAD OF SCI
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

But due to the activated ion Ce 3+ replace Ca 2+ There is a charge mismatch at the lattice site, Ce 3+ The concentration of ions entering the host lattice is very low, resulting in weak absorption of excitation light by the phosphor. People try to enhance the absorption by increasing the thickness of the phosphor, but the light extraction efficiency of the device is significantly reduced due to the multiple scattering of light in the phosphor. , which greatly limits its application in high-power white LEDs
On the other hand, current fluorescent ceramics mainly focus on rare earth aluminates with garnet structure, such as Re 3 al 3 o 12 (Re=Lu, Y, Tb and Gd), and they all emit light from a single active ion. The white LED synthesized by it also has problems such as low color rendering index and high color temperature due to the lack of red light components.

Method used

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  • A kind of silicate fluorescent ceramics with full spectrum emission and preparation method thereof
  • A kind of silicate fluorescent ceramics with full spectrum emission and preparation method thereof
  • A kind of silicate fluorescent ceramics with full spectrum emission and preparation method thereof

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preparation example Construction

[0036] The preparation method of the powder in the embodiment of the present invention is direct ball milling of raw materials, but the preparation method of the mixed powder of the present invention is not limited to the above preparation method, and wet chemical methods such as sol-gel method and uniform precipitation well-known to those skilled in the art can also be used. synthesis.

[0037] The preparation method of the ceramic body in the embodiment of the present invention is dry pressing forming, but the present invention has no special limitation on the method of dry pressing forming, it can be a forming method well known to those skilled in the art. In the embodiment of the present invention, adopt Axial one-way pressurization is used for dry press forming, and axial two-way pressurization can also be used for dry press forming.

[0038] The ceramic phosphor can also be prepared by a two-step sintering method, that is, the powder is first sintered to obtain Ca 3-x-y...

Embodiment 1

[0043] Ca 2.969 Ce 0.001 mn 0.03 sc 2 Si 3 o 12 preparation of

[0044] Weigh CaCO according to stoichiometric ratio 3 : 14.903 g, Sc 2 o 3 : 6.895 g, SiO 2 : 9.013 g, CeO 2 : 0.087 g, MnCO 3 : 0.1724 g. Use zirconia balls and ball milling tanks to grind and mix the raw materials with absolute ethanol as the medium until the average particle size of the powder is less than 0.5 μm; dry and sieve the slurry obtained after ball milling; The sieved powder was first dry-pressed in an axial unidirectional pressure mold with a pressure of 20 MPa and a holding time of 2 minutes, and then pressed into a green body by cold isostatic pressing (pressure of 220 MPa and holding time of 2 minutes). Put the biscuit into a vacuum furnace for sintering: first, raise the temperature to 1000°C at 4°C / min, keep it for 5 hours, and decompose the carbonate; To 1600 ℃, keep warm for 10h, remove pores and densify. The vacuum sintered samples were placed in a hot-press sintering furnace f...

Embodiment 2

[0047] Ca 2.85 Ce 0.05 mn 0.1 sc 2 Si 3 o 12 preparation of

[0048] Weigh CaCO according to stoichiometric ratio 3 , Sc 2 o 3 , SiO 2 , CeO 2 and MnCO 3 , using zirconia balls and ball milling tanks, and using absolute ethanol as the medium to grind and mix the raw materials until the average particle size of the powder is less than 0.5 μm; the slurry obtained after ball milling is dried and sieved; then, an appropriate amount of The sieved powder is first dry-pressed in an axial unidirectional pressure mold with a pressure of 20 MPa and a holding time of 2 minutes, and then pressed into a green body by cold isostatic pressing (pressure of 220 MPa and holding time of 2 minutes). Put the biscuit into a vacuum furnace for sintering: first, raise the temperature to 1000°C at 4°C / min, keep it for 5 hours, and decompose the carbonate; To 1600 ℃, keep warm for 10h, remove pores and densify. The vacuum sintered samples were placed in a hot-press sintering furnace for ho...

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Abstract

The invention provides a silicate fluorescent ceramic with full spectrum emission, which has the chemical formula shown in formula (I): Ca 3‑x‑y‑z‑ m Ce x PR y mn z Na m sc 2 Si 3 o 12 (I); wherein, 0.001≤x≤0.2, 0≤y≤0.1, 0.03≤z≤0.4, 0≤m≤0.3; the silicate fluorescent ceramic has a garnet crystal structure, belongs to the cubic crystal system, and has a space group for Ia3d. The silicate fluorescent ceramic provided by the present invention has stable physical and chemical properties, and its emission wavelength range is wide under the effective excitation of blue light, and the spectrum covers blue-green light, yellow light, red light and deep red light. This single fluorescent ceramic can Realize the production of white light LED with low color temperature and high color rendering, and overcome the reabsorption problem caused by the mixing of multi-color phosphor powder. It can be used for high-power blue LED or LD-pumped white LED to meet high-end display and lighting.

Description

technical field [0001] The invention relates to the technical field of luminescent materials, in particular to a silicate fluorescent ceramic with full-spectrum emission and a preparation method thereof. Background technique [0002] White LEDs are considered to be the fourth-generation lighting sources that are expected to replace traditional lighting due to their advantages of energy saving, environmental protection, long life, small size, and short response time. At present, there are mainly two schemes for synthesizing white light LEDs. One is to use red, green, and blue primary color LEDs to synthesize white light through the principle of color mixing; the other is to use one or more phosphors to emit blue or ultraviolet light from LEDs. light is converted to white light. The former scheme is only used in the field of large-screen display because of its complicated control circuit and high manufacturing cost. At present, the commercialized white light LED mainly adopt...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C04B35/22C04B35/622C04B35/64C04B35/645C09K11/79
CPCC04B35/22C04B35/622C04B35/64C04B35/645C04B2235/3224C04B2235/3229C04B2235/442C04B2235/662C04B2235/77C04B2235/95C04B2235/9646C09K11/7774Y02B20/00
Inventor 张家骅肖文戈张霞张晟张亮亮郝振东潘国徽
Owner CHANGCHUN INST OF OPTICS FINE MECHANICS & PHYSICS CHINESE ACAD OF SCI
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