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A kind of red fluorescent material that can be excited by near ultraviolet light, preparation method and application

A red fluorescent and near-ultraviolet light technology, applied in the field of red fluorescent materials, can solve the problems that blue light chips cannot stably meet the application requirements of WLEDs, low stability and luminous efficiency, high manufacturing trouble and high cost, and meet production conditions and equipment requirements. Low cost, low cost, easy to operate

Active Publication Date: 2019-06-28
NANJING TONGLI CRYSTAL MATERIALS RES INST CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] On the other hand, although some red phosphors have been developed, most of them are excited under ultraviolet light (less than 365 nanometers), which does not match the blue light chip (the excitation area is generally 380-470 nanometers), so it cannot stably meet the needs of WLEDs. Therefore, there are relatively few red phosphors that can be effectively excited by near-ultraviolet light at this stage, and the stability and luminous efficiency are not high. In addition, ordinary phosphors will also produce toxic gases such as sulfide under ultraviolet radiation, which is harmful to The environment is harmful, and it is troublesome to make and the cost of the preparation process is relatively high.

Method used

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  • A kind of red fluorescent material that can be excited by near ultraviolet light, preparation method and application
  • A kind of red fluorescent material that can be excited by near ultraviolet light, preparation method and application
  • A kind of red fluorescent material that can be excited by near ultraviolet light, preparation method and application

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Experimental program
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Effect test

Embodiment 1

[0035] According to the chemical formula Ca 4.25 Eu 0.75 Nb 4 Ti 3 o 21 The stoichiometric ratio of each element in, respectively weighed calcium carbonate CaCO 3 : 2.1250 grams; europium oxide Eu 2 o 3 : 0.6600 g; niobium pentoxide Nb 2 o 5 : 2.6580 g; Titanium dioxide TiO 2 : 1.1981 g is the raw material for preparation, the raw materials weighed are ground respectively and mixed uniformly; the mixture obtained is pre-sintered for the first time under air atmosphere, the sintering temperature is 900 ° C, and the sintering time is 10 hours; the sintered sample is ground evenly , the second sintering in the air atmosphere, the sintering temperature is 1200 ° C, the sintering time is 1 hour; finally, the sample is ground and mixed evenly, and calcined in the air atmosphere, the calcination temperature is 1400 ° C, the calcination time is 1 hour, and the red fluorescence is obtained. pink.

[0036] See attached figure 1 , is the material Ca prepared according to the t...

Embodiment 2

[0041] According to the chemical formula Ca 4.995 Eu 0.005 Nb 4 Ti 3 o 21 The stoichiometric ratio of each element in, respectively weighed calcium chloride CaCl 2 ::2.7722 g; Europium nitrate Eu(NO 3 ) 3 ·6H 2 O:0.0112g; niobium pentachloride NbCl 5 : 5.4000 g; Titanium dioxide TiO 2 : 1.1981 g is the raw material for preparation, the raw materials weighed are ground respectively and mixed uniformly; the obtained mixture is pre-sintered under air atmosphere, and the sintering temperature is 1100 ℃, and the sintering time is 5 hours; the sintered sample is ground evenly, and the Calcining under the atmosphere, the calcining temperature is 1200° C., and the calcining time is 15 hours to obtain a red fluorescent powder.

[0042] The main structural properties, excitation spectrum, and luminescence spectrum of the sample are similar to those in Example 1.

Embodiment 3

[0044] According to the chemical formula Ca 4 EuNb 4 Ti 3 o 21 The stoichiometric ratio of each element in, respectively weighs calcium oxide CaO: 1.1200 grams; Europium oxide Eu 2 o 3 : 0.8800 g; niobium pentoxide Nb 2 o 5 : 2.6580 g; Titanium dioxide TiO 2 : 1.1981 g is the raw material for preparation, the raw materials weighed are ground respectively, and mixed uniformly; the mixture obtained is pre-sintered in an air atmosphere, and the sintering temperature is 1000° C., and the sintering time is 8 hours; the pre-sintered sample is ground evenly, and again Calcining in an air atmosphere, the calcining temperature is 1250° C., and the calcining time is 8 hours to obtain a red fluorescent powder.

[0045] The main structural properties, excitation spectrum, and luminescence spectrum of the sample are similar to those in Example 1.

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Abstract

The invention discloses a red fluorescent material capable of being excited by near-ultraviolet light, a preparation method and application. A chemical formula is Ca[5-5x]Eu5xNb4Ti3O21, wherein x is a molar ratio as rare earth europium ion Eu<3+> substituting Ca (calcium) ion, and is greater than or equal to 0.0001 or smaller than or equal to 0.20. The red fluorescent material has the advantages that the red light with a peak value of about 615 nanometers can be transmitted in the near-ultraviolet area with exciting light of 350 to 420 nanometers, the chromaticity coordinate value of the light emitting is red light with x is equal to 0.625-0.655 and y is equal to 0.345-0.375, and the chromaticity is pure; the exciting wavelength is closely matched with near-ultraviolet semiconductor chips of InAlGaN, InGaAs and the like, and can be used as a deep red component in LED (light emitting diode) and WLED (white light emitting diode) of multi-primary color energy-saving fluorescent light sources, so as to modulate the color temperature of the light source and improve the color displaying index; a matrix is stable and can resist corrosion, the light emitting efficiency is high, and the toxicity and the harm are avoided. The preparation method has the advantages that the method is simple, the operation is easy, the requirement on production conditions and equipment is low, the cost is low, any pollution is avoided, and the preparation method is suitable for industrialized production.

Description

technical field [0001] The invention relates to a red fluorescent material that can be excited by near-ultraviolet light, a preparation method and an application, and belongs to the technical field of luminescent materials and displays. Background technique [0002] White LED is an emerging green lighting technology with strong development potential. Compared with incandescent lamps and fluorescent lamps, white LEDs are more energy-efficient: the energy consumption of white LEDs is only 1 / 8 of incandescent lamps, and 1 / 2 of energy-saving lamps; long life: more than 100,000 hours; can work at high speed: energy-saving lamps If the filament is frequently turned on or off, it will turn black and quickly break down; environmental protection: waste can be recycled, no pollution; easy preparation: solid-state packaging, not afraid of vibration, basically no need to consider heat dissipation, etc. The currently used white LEDs are mainly composed of blue LEDs and YAG phosphors to ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09K11/67H01L33/50
CPCC09K11/7728H01L33/502Y02B20/00
Inventor 乔学斌
Owner NANJING TONGLI CRYSTAL MATERIALS RES INST CO LTD
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