CN105131953B - A kind of near ultraviolet excited white light LED rare earth ion doped new polysilicate green emitting phosphors and preparation method thereof - Google Patents

Abstract

The invention belongs to luminescent material technical field, is a kind of near ultraviolet excited white light LED rare earth ion doped new polysilicate green emitting phosphors and preparation method thereof.The chemical expression of new polysilicate green fluorescence powder in the present invention is Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:Eu²⁺.The preparation method is that the SrCO purer than weighing quantitative analysis is measured by chemical expression₃、SiO₂、Na₂CO₃And specpure Y₂O₃And Eu₂O₃As raw material, using high temperature solid-state method, synthesize and be made under CO reducing atmospheres.The preparation method of the present invention is simple, and the new polysilicate green emitting phosphor of synthesis has the advantages that near ultraviolet absorbs strong, green emission brightness height and heat endurance is good.Therefore this polysilicate is a kind of fluorescent powder of function admirable, can be widely applied to the fields such as White-light LED illumination, display.

Description

A kind of near ultraviolet excited white light LED is green with rare earth ion doped new polysilicate Color fluorescent powder and preparation method thereof

Technical field

The invention belongs to luminescent material technical field, it is related to a kind of near ultraviolet excited white light LED with rare earth ion doped New polysilicate green emitting phosphor and preparation method thereof.

Background technology

White light emitting diode（WLED）Due to its have the advantages that energy-saving and environmental protection and service life it is long and by it is believed that It is the preferable solid-state lighting light source of forth generation and the lighting sources such as current incandescent lamp, fluorescent lamp will be finally replaced.It is current commercial WLED devices mainly use semiconductor GaN base LED chip and YAG:Ce³⁺Fluorescent powder packaging assembles, its operation principle is LED chip sends blue light after being powered, so as to excite YAG:Ce³⁺Fluorescent powder obtains yellow light, and incomplete in hybrid chip The blue light of absorption is so as to obtain white light emission.The device luminous efficiency highest that this assembling mode obtains, but since it lacks Red color light component, so as to cause that device colour rendering index is relatively low, colour temperature is higher, is unfavorable for room lighting.In order to overcome disadvantages mentioned above, adopt It is considered as preferable alternative near ultraviolet LED chip package three primary colors fluorescent powder synthesis white light and commercially shows Certain competitiveness.Therefore exploitation can effectively be excited by black light, and with higher quantum efficiency, excellent heat, change The three primary colors fluorescent powder for the advantages that learning stability, low Poison decay and high luminescence queenching temperature is extremely urgent.

The content of the invention

The present invention provides a kind of near ultraviolet excited white light LED with rare earth ion doped new polysilicate green fluorescence Powder and preparation method thereof.This kind of fluorescent powder is suitable for white light LEDs, display material etc..

A kind of rare earth ion doped new polysilicate green emitting phosphors of near ultraviolet excited white light LED, its chemical table It is as follows up to formula：Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:Eu²⁺；Matrix is Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂, its centre of luminescence uses Eu^{2 +}It is doped, Eu²⁺Sr in ionic compartmentation matrix²⁺Ion site, its concentration range are 0.3~10 mol%.Select SrCO₃、 SiO₂、Na₂CO₃、Y₂O₃And Eu₂O₃As raw material, using high temperature solid-state method, prepared under CO reducing atmospheres.Eu²⁺The concentration of ion Refer to Eu²⁺The amount of the material of ion is than upper Eu²⁺Ion and Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂Middle Y³⁺The sum of amount of ionic species.

Further, centre of luminescence Eu²⁺Concentration be 3mol%.

A kind of near ultraviolet excited white light LED rare earth ion doped new polysilicate green emitting phosphor, preparation method Including stocking up, grinding, burning till three steps：

1st, material preparation step

By a kind of near ultraviolet excited white light LED of the present invention with rare earth ion doped new polysilicate green fluorescence The chemical expression Na of powder₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:Eu²⁺Metering ratio weigh SrCO₃、SiO₂、Na₂CO₃、Y₂O₃And Eu₂O₃ As raw material, wherein Eu²⁺The concentration range of ion is 0.3~10mol%；

2nd, abrasive material

The SrCO that will stoichiometrically weigh₃、SiO₂、Na₂CO₃、Y₂O₃And Eu₂O₃It is put into agate mortar, and adds nothing Water-ethanol, absolute ethyl alcohol are 2 with material quality ratio：1,2 hours are then ground, make all raw material after mixing, finally Gained mixture is placed in baking oven at 80 ± 5 DEG C dry 5 hours, by mixture grinding after drying uniformly and loaded on oxidation In aluminium crucible；

3rd, step is burnt till

Alumina crucible equipped with mixture after drying and grinding is put into high temperature sintering furnace and is warming up to 800 ± 10 DEG C, 5 hours of constant temperature, after being cooled to room temperature, are drawn off and regrind 30 minutes, finally reactant is put into high temperature furnace And 1200 ± 10 DEG C are warming up under CO reducing atmospheres, and 8 hours of constant temperature, after the completion of reaction, after high temperature furnace is cooled to room temperature, Product is taken out.

In whole polysilicate green emitting phosphor preparation process, first step low-temperature sintering（Constant temperature 5 at 800 ± 10 DEG C Hour）It is crucial, at this temperature, each raw material reacts to form simple silicate intermediate product first, so that reaction has Direction clearly occurs.If directly rising to 1200 ± 10 DEG C from room temperature, because temperature is higher, each raw material is directly reacted by oxide Other various forms of silicates will be formed, from the Na for being unable to obtain pure phase₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:Eu²⁺Fluorescence Powder.In addition, under CO reducing atmospheres, when temperature is more than 1200 ± 10 DEG C, reaction raw materials will melt, it is impossible to obtain powder Material, if temperature is less than 1200 ± 10 DEG C, obtained polysilicate green emitting phosphor luminosity is relatively low（Such as the institute of attached drawing 2 Show）.Therefore we select 1200 ± 10 DEG C to be used as the last sintering temperature of polysilicate green emitting phosphor.As shown in Figure 6, it is made The heat endurance of standby polysilicate green emitting phosphor is substantially better than the Ba of commercialization₂SiO₄:Eu²⁺Green emitting phosphor.

The present invention can also be sufficiently mixed each raw material by grinding three times, particularly high temperature sintering furnace sintering after institute into Capable grinding, farthest ensure that the quality of final products；Oven temperature, sintering furnace temperature, reduction temperature in reaction And corresponding time parameter, go out to have higher quantum efficiency, excellent heat, chemical stability, low glimmering for final production The fluorescent powder product of the advantages that optical attenuation and high luminescence queenching temperature plays the effect of key.

It is characteristic of the invention that：

（1）New multi-silicate green emitting phosphor of the present invention be one kind can effectively by near ultraviolet excitation, and Green luminescence brightness is high, the green emitting phosphor of high color purity；

（2）The fluorophor is prepared using high temperature solid-state method, manufacturing process is simple, easily operated, suitable batch production；

（3）Near ultraviolet excitated new polysilicate green emitted light-emitting phosphor heat endurance prepared by this method is high；

（4）It is proposed satisfied base starting material proportioning；

（5）It is proposed the doping concentration scope at optimal luminescent center, test result indicates that, centre of luminescence Eu²⁺Doping concentration The product of luminous intensity maximum can be obtained for 3 mol%.

Brief description of the drawings

Fig. 1：Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:3mol%Eu²⁺The XRD spectra of fluorescent powder.

Fig. 2：Na prepared by different temperatures₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:3mol%Eu²⁺The emission spectrum of fluorescent powder.

Fig. 3：Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:xEu²⁺ (x=0.5~10 mol%) fluorescent powder excitation spectrum.

Fig. 4：Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:xEu²⁺ (x=0.5~10 mol%) fluorescent powder emission spectrum.

Fig. 5：Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:3mol%Eu²⁺The chromaticity coordinates of fluorescent powder.

Fig. 6：Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:3mol%Eu²⁺Fluorescent powder and commercialization Ba₂SiO₄:Eu²⁺Fluorescent powder shines The dependence of intensity and temperature.

Embodiment

Embodiment 1

(1) according to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂And 0.5995g SrCO₃, and be put into according to this in middle agate mortar；

(2) absolute ethyl alcohol that quality is 2 times of material quality is added in said mixture, then grinds 2 hours, is made anti- Thing is answered to be uniformly mixed；

(3) uniform mixture will be ground and be placed in baking oven at 80 ± 5 DEG C dry 5 hours, then will be resulting mixed Compound regrinding is uniformly rear to be fitted into alumina crucible；

(4) alumina crucible of above-mentioned charging feedstock is put into high temperature sintering furnace flat-temperature zone, high temperature sintering furnace rises to first 800±10℃（It is preferred that 800 DEG C）It is sintered, when constant temperature 5 is small, after high temperature furnace is cooled to room temperature, reaction raw materials is taken out simultaneously Regrinding 30 minutes, finally ground reactant is placed again into high temperature furnace and is warming up to 1200 under CO reducing atmospheres ± 10℃（It is preferred that 1200 DEG C）, 8 hours of constant temperature.After the completion of reaction, after high temperature furnace is cooled to room temperature, final product is taken out, Obtain the Na of the present invention₄Sr₂Y₂(Si₂O₇)(SiO₄)₂Phosphor host.

Embodiment 2

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5956g SrCO₃With 0.0011g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after testing with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:0.3mol%Eu²⁺Fluorescent powder.

Embodiment 3

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5950g SrCO₃With 0.0018g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after tested with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:0.5mol%Eu²⁺Fluorescent powder.

Embodiment 4

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5944g SrCO₃With 0.0025g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after testing with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:0.7mol%Eu²⁺Fluorescent powder.

Embodiment 5

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5935g SrCO₃With 0.0035g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after testing with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:1mol%Eu²⁺Fluorescent powder.

Embodiment 6

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5875g SrCO₃With 0.0106g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after testing with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:3mol%Eu²⁺Fluorescent powder.

Embodiment 7

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5816g SrCO₃With 0.0176g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after testing with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:5mol%Eu²⁺Fluorescent powder.

Embodiment 8

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5756g SrCO₃With 0.0246g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after testing with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:7mol%Eu²⁺Fluorescent powder.

Embodiment 9

According to stoichiometric ratio, 0.4312g Na are weighed₂CO₃、0.4517g Y₂O₃、0.4807g SiO₂、0.5667g SrCO₃With 0.0352g Eu₂O₃, and be put into according to this in middle agate mortar, remaining condition obtains this hair after testing with embodiment 1 Bright Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:10mol%Eu²⁺Fluorescent powder.

Claims (3)

1. the rare earth ion doped polysilicate green emitting phosphors of a kind of near ultraviolet excited white light LED, it is characterised in that it is changed Learning expression formula is：Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:Eu²⁺；Matrix is Na₄Sr₂Y₂(Si₂O₇)(SiO₄)₂, the use of its centre of luminescence Eu²⁺It is doped, Eu²⁺Sr in ionic compartmentation matrix²⁺Ion site, centre of luminescence Eu²⁺Concentration be 3 mol%.

A kind of 2. rare earth ion doped polysilicate green fluorescence of near ultraviolet excitated white light LEDs as claimed in claim 1 The preparation method of powder, it is characterised in that including stocking up, grinding, burning till three steps；

Material preparation step includes the chemical expression Na by fluorescent powder₄Sr₂Y₂(Si₂O₇)(SiO₄)₂:Eu²⁺Metering ratio weigh SrCO₃、 SiO₂、Na₂CO₃、Y₂O₃And Eu₂O₃As raw material；

Abrasive material step includes the SrCO that will stoichiometrically weigh₃、SiO₂、Na₂CO₃、Y₂O₃And Eu₂O₃It is put into agate mortar, And absolute ethyl alcohol is added, absolute ethyl alcohol is 2 with material quality ratio：1,2 hours are then ground, make all raw material mixing equal It is even, gained mixture is finally placed in baking oven at 80 ± 5 DEG C dry 5 hours, by mixture grinding after drying uniformly simultaneously Loaded in alumina crucible；

In step is burnt till, the alumina crucible equipped with mixture after drying and grinding is put into high temperature sintering furnace and is warming up to 800 ± 10 DEG C, 5 hours of constant temperature, after being cooled to room temperature, are drawn off and regrind 30 minutes, finally put reactant Enter in high temperature furnace and be warming up to 1200 ± 10 DEG C under CO reducing atmospheres, 8 hours of constant temperature, after the completion of reaction, treat high temperature furnace cooling But to after room temperature, product is taken out.

A kind of 3. rare earth ion doped polysilicate green of near ultraviolet excitated white light LEDs according to claim 2 The preparation method of fluorescent powder, it is characterised in that SrCO₃、SiO₂And Na₂CO₃It is pure to analyze；Y₂O₃And Eu₂O₃For spectroscopic pure.