CN102690647A - Cold cathode green phosphor for composite oxide coating and preparation method therefor - Google Patents

Abstract

A cold cathode green phosphor for a composite oxide coating and a preparation method therefor belong to the technical field of fluorescence luminescent material and preparation method therefor. The cold cathode green phosphor for the composite oxide coating consists of a core which is the cold cathode green phosphor and a shell outside the core, and is characterized in that the shell is composed of a first coating layer - Y2O3 and a second coating layer - Al2O3, wherein the first coating layer combines the surface of the core and the second coating layer combines the surface of the first coating layer. The cold cathode green phosphor for the composite oxide coating is advantageous in that a complete composite oxide coating is formed on the surface of the cold cathode green phosphor particles due to the outer surface of the core being combined with the first coating layer filled with Y2O3 and the outer surface of the first coating layer being combined with the second coating layer filled with Al2O3, so that the uniformity of the particles is ultimately enhanced, and the heat stability and the capability of resisting 185nm radiation are significantly improved; and that a concise preparation method is provided and a comprehensive embodiment of the technical effects of the cold cathode green phosphor can be ensured.

Description

Cold cathode green emitting phosphor of composite oxides coating and preparation method thereof

Technical field

The invention belongs to fluorescence luminescent material and preparing technical field thereof, be specifically related to cold cathode green emitting phosphor of a kind of composite oxides coating and preparation method thereof

Background technology

Along with the progress of flat panel display, cathode tube (CRT:Cathode Ray Tube) is replaced by liquid-crystal display (LCD:liquid Crystal Display) gradually .Because LCD itself is not luminous, thereby need be aided with backlight and could realizes demonstration.At present the backlight of LCD mainly contains five kinds of CCFL (cold-cathode fluorescence lamp), EEFL (external electrode fluorescent lamp), LED (photodiode), OLED (Organic Light Emitting Diode) and FFL (planar light source).Comparatively speaking, EEFL requires voltage high; Big and the poor radiation of LED cost; OLED and the prematurity still of FFL technology; CCFL with its technology maturation, diameter is little, cost is low, light efficiency is high, the life-span is long and strong point such as stable performance and on LCD, obtain widespread usage, and still do not have other backlight up to now and match in excellence or beauty with it.

are present, and liquid crystal backlight is main with cold-cathode fluorescence lamp (CCFL) mainly, and the quality of one of fluorescent material material that to be it important and fluorescent material can produce significant effects to it.The cold-cathode fluorescent powder is by rouge and powder (Y ₂ O ₃ : Eu), green powder (LaPo ₄ : Ce, Tb) and blue powder (BaMgAl ₁₀ O ₁₇ : Eu ²⁺ ) this three primary colors fluorescent powder mixes, belong to cause or the photoinduced fluroscence powder category.Known; The field causes or photoinduced fluroscence powder can complicated light or electrochemical reaction take place because of absorbing airborne moisture; Cause luminous intensity to decay rapidly; Reduce work-ing life, and can prevent to receive particularly Influence of Temperature of surrounding environment effectively at phosphor surface parcel oxidation film layer (also claiming coating), uses the work-ing life that prolongs fluorescent material.

fluorescent material not only needs high luminous efficiency, also needs suitable granule-morphology (have sphere and do not have the granule-morphology of reunion), the size distribution that particle is little and narrower.As aforementioned, CCFL fluorescent powder grain surface is coated, can improve effectively fluorescent material performance, improve stability and improve surface conductivity and reduce particle agglomeration etc.The method that prior art coats fluorescent powder grain comprises that solid phase method, chemical gaseous phase deposition method (CVD), liquid phase coat method, Pechini sol-gel method and polyol method etc.Different according to composition, coating layer can be inorganic materials and organic polymer material, for example: SiO ₂ , MgO, La ₂ PO ₄ , contain organic cpds and organic regulator, borate or compound borate, pure aluminium silicate and the MgF of Si, Ti, Zr, Al ₂ Deng; Though can improve the granule-morphology of CCFL fluorescent material to a certain extent; But because the coated fertilizer of film-coating technique prematurity still and selection still is in the exploratory stage, thereby at the surperficial DeGrain that forms complete coating layer of CCFL green emitting phosphor, same and not obvious to the improved performance effect of green emitting phosphor; Be embodied in the cold cloudy light of CCFL and decline greatly and poor heat stability, thereby influence luminous intensity and work-ing life.

In view of above-mentioned prior art, be necessary to explore and improve, the technical scheme that will introduce below produces under this background

Summary of the invention

task of the present invention is to provide a kind of and can forms complete coating layer and use the homogeneity that improves fluorescent powder grain in use embodies the composite oxides coating of good thermostability and anti-185nm radiative aging ability with guarantee cold cathode green emitting phosphor on the fluorescent powder grain surface.

another task of the present invention is to provide a kind of cold cathode preparation method of green emitting phosphor of composite oxides coating, and this method can ensure comprehensive embodiment of said effect of the cold cathode green emitting phosphor of composite oxides coating.

Top priority of the present invention is accomplished like this; A kind of cold cathode green emitting phosphor of composite oxides coating, by kernel be positioned at the extranuclear shell and constitute, described kernel is the cold cathode green emitting phosphor; Characteristics are: described shell is made up of the first overlay film layer and the second overlay film layer; The first overlay film layer is incorporated into the surface of described kernel, and the second overlay film layer is incorporated into the surface of the first overlay film layer, and wherein: the described first overlay film layer is Y ₂ O ₃ , and the described second overlay film layer is Al ₂ O ₃

In a concrete embodiment of the present invention, described cold cathode green emitting phosphor is LaPo ₄ : Ce, Tb.

In another concrete embodiment of the present invention, described Y ₂ O ₃ Weight be the 0.1-0.5% of said cold cathode green emitting phosphor weight, and described Al ₂ O ₃ Weight be the 0.2-0.4% of cold cathode green emitting phosphor weight.

Another task of the present invention is accomplished like this, and a kind of cold cathode preparation method of green emitting phosphor of composite oxides coating may further comprise the steps:

A) produce the first overlay film liquid, with Y (NO ₃ ) ₃ Join in the deionized water and dissolve, obtain the first overlay film liquid, and control the mass percent concentration of the first overlay film liquid;

B) overlay film will join as the cold cathode green emitting phosphor of kernel in the first overlay film liquid, behind ultra-sonic dispersion, be transferred to the water-bath heating; And the control Heating temperature, then adding mol concentration is the NaOH solution of 0.5mol/L, and regulates pH; Continue heating and stirring when continuing heating; Then leave standstill, introduce the dewatering unit dehydration at last, obtaining surface bonding has by Y ₂ O ₃ An overlay film cold cathode green emitting phosphor of the first overlay film layer of filling the post of, wherein: the weight ratio of described cold cathode green emitting phosphor and the said first overlay film liquid is 1: 7-8, described NaOH solution and Y (NO ₃ ) ₃ Weight ratio be 1.8-2.4: 1, and described Y ₂ O ₃ Weight be the 0.1-0.5% of said cold cathode green emitting phosphor weight;

C) produce the second overlay film liquid, with Al ₂ O ₃ Join in the deionized water and dissolve, obtain the second overlay film liquid, and the mass percent concentration of the second overlay film liquid;

D) secondary overlay film joins an overlay film cold cathode green emitting phosphor in the second overlay film liquid, and heats while stirring, and then regulates pH, then leaves standstill, and removes supernatant liquid, obtains having by Al in the surface bonding of the first overlay film layer ₂ O ₃ The secondary overlay film cold cathode green emitting phosphor of the second overlay film layer of filling the post of, wherein: the weight ratio of a described overlay film cold cathode green emitting phosphor and the said second overlay film liquid is 1: 5-6, and described Al ₂ O ₃ Weight be the 0.2-0.4% of cold cathode green emitting phosphor weight;

E) dries and burn till; Earlier secondary overlay film cold cathode green emitting phosphor is introduced the baking apparatus oven dry; Then introduce kiln roasting; Come out of the stove after cooling to room temperature with the furnace, the surface that obtains kernel has the cold cathode green emitting phosphor of the composite oxides coating of the shell that is made up of first, second overlay film layer.

in another concrete embodiment of the present invention, steps A) described in the mass percent concentration of the control first overlay film liquid be that mass percent concentration is controlled to be 2-10%.

in another concrete embodiment of the present invention, step B) described in the Heating temperature of water-bath heating be 50-100 ℃, the temperature rise rate in the heat-processed is 10 ℃/min; Described adjusting pH is adjusted to 3-10 with the pH value; The time of described continuation heating is 2-3h, and temperature is 50-100 ℃, and the speed of described stirring is 100-300n/min; The described time of leaving standstill is 60-120min, and described dewatering unit is a whizzer.

Also have among the concrete embodiment step C of the present invention) described in the mass percent concentration of the control second overlay film liquid be that mass percent concentration is controlled to be 10-15%, described Al ₂ O ₃ Be nanometer Al ₂ O ₃

more of the present invention and among concrete embodiment, step D) described in the Heating temperature that heats while stirring be 50-100 ℃, temperature rise rate is 10 ℃/min, stirring velocity is 100-300n/min; Described and then adjusting pH is adjusted to 6-8 with the pH value; The described time of leaving standstill is 30-60min.

in of the present invention and then concrete embodiment, step e) described in the temperature of oven dry be 100-120 ℃, the time is 300-600min.

of the present invention again more and among concrete embodiment, step e) described in stove be retort furnace, described temperature of burning till is 300-500 ℃, firing time is 60-300min.

Technical scheme provided by the invention is owing to be combined with by Y outside kernel ₂ O ₃ The first overlay film layer of filling the post of and outside the first overlay film layer, being combined with by Al ₂ O ₃ The second overlay film layer of filling the post of, thus get so that cold cathode green emitting phosphor particle surface forms complete composite oxides coating, make the ultimate attainment lifting of particulate homogeneity, can significantly improve thermostability and the aging ability of opposing 185nm radiating; The preparing method's technology that provides is terse, can ensure comprehensive embodiment of the technique effect of cold cathode green emitting phosphor.

Description of drawings

Fig. 1 is the particle enlarged view of the cold cathode green emitting phosphor of composite oxides coating of the present invention.

Fig. 2 coats the emmission spectrum comparison diagram behind the CCFL cold cathode green emitting phosphor thermal degradation when before and after the composite oxides coating for core surface.

Fig. 3 is the cold cathode green emitting phosphor particulate sem photograph of composite oxides coating shown in Figure 1.

Fig. 4 is the cold cathode green emitting phosphor particulate sem photograph in the prior art.

Embodiment

Embodiment 1:

A) produce the first overlay film liquid, with Y (NO ₃ ) ₃ Join in the deionized water and dissolve, obtain mass percent concentration and be 10% the first overlay film liquid;

B) overlay film will be LaPo by the cold cathode green emitting phosphor as kernel 1 shown in Figure 1 ₄ : Ce, Tb (as follows) joins by steps A) in the first overlay film liquid that obtains, behind ultra-sonic dispersion, be transferred to water-bath and be heated to 80 ℃ with the temperature rise rate of 10 ℃/min; Then adding mol (mole) concentration is the NaOH solution of 0.5mol/L; And regulate pH6, continuing heating 180min and keeping Heating temperature is 80 ℃, promptly under 80 ℃, keeps 180min; Stirring velocity with 120n/min when continuing heating stirs; Continue to leave standstill 60min after heating finishes, introduce the water extracter centrifuge dehydration at last, obtain by shown in Figure 1 having by Y in kernel 1 surface bonding ₂ O ₃ An overlay film cold cathode green emitting phosphor of the first overlay film layer of filling the post of 21, wherein: the weight ratio of aforesaid cold cathode green emitting phosphor and the said first overlay film liquid is 1: 7, and aforesaid NaOH solution and Y (NO ₃ ) ₃ Weight ratio be 1.8: 1, and Y ₂ O ₃ Weight be 0.1% of cold cathode green emitting phosphor weight;

C) producing the second overlay film liquid, is nanometer Al with nano level ₂ O ₃ Join in the deionized water and dissolve, obtain mass percent concentration and be 15% the second overlay film liquid;

D) secondary overlay film; Will be by step B) an overlay film cold cathode green emitting phosphor obtaining joins by step C) in the second overlay film liquid that obtains; Under the state that heats while stirring, be that 10 ℃/min is warming up to 50 ℃ with temperature rise rate, wherein: stirring velocity is 300n/min, and then regulates pH6; Then leave standstill 60min, obtain having by Al by the surface bonding at the first overlay film layer 21 shown in Figure 1 ₂ O ₃ The secondary overlay film cold cathode green emitting phosphor of the secondary overlay film layer of filling the post of 22, wherein: the weight ratio of the overlay film cold cathode green emitting phosphor and the second overlay film liquid is 1: 6, and Al ₂ O ₃ Weight be 0.4% of cold cathode green emitting phosphor weight;

E) dries and burn till; Earlier will be by step D) in the secondary overlay film cold cathode green emitting phosphor that obtains introduce baking apparatus such as oven for drying; Bake out temperature is 100 ℃; Time is 600min, then introduces retort furnace and burns till, and firing temperature is 300 ℃; Time is 300min; Cool to normal temperature with the furnace or claim and come out of the stove after the room temperature, obtain being had by the surface at kernel 1 shown in Figure 1 the cold cathode green emitting phosphor of the composite oxides coating of the shell 2 that is made up of first, second overlay film layer 21,22, this fluorescent material (this Fig. 3 is the cold cathode green emitting phosphor particulate sem photograph of composite oxides coating shown in Figure 1) as shown in Figure 3 is compared with (cold cathode green emitting phosphor particulate sem photograph in the prior art) shown in Figure 4 has complete, the evengranular advantage of coating layer; And the emmission spectrum that core surface coats behind the CCFL cold cathode green emitting phosphor thermal degradation when before and after the composite oxides coating compares situation by shown in Figure 2.In Fig. 2: I is represented the sample before the coating; II is represented the preceding deterioration sample of coating; III is represented deterioration sample behind the coating.

Embodiment 2:

Only with steps A) in the mass percent concentration of the first overlay film liquid change 2% into; With step B) in the temperature rise rate that changes into 10 ℃/min of water-bath heating be warming up to 100 ℃, regulate pH value and change pH3 into, change the time of continuing to heat into 120min; Temperature changes 100 ℃ into; Promptly be incubated 120min down at 100 ℃, stirring velocity changes 300n/min into, and time of repose changes 120min into; The weight ratio of the cold cathode green emitting phosphor and the first overlay film liquid changes 1: 8 into, NaOH solution and Y (NO ₃ ) ₃ Weight ratio change 2.4: 1 into, Y ₂ O ₃ Change Weight To cold cathode green emitting phosphor weight 0.5%; With step C) in the mass percent specific concentration of the second overlay film liquid change 10% into; With step D) in the temperature rise rate that changes into 10 ℃/min of the parameter that heats while stirring be warming up to 100 ℃; Stirring velocity changes 100n/min into; To and then regulate the pH value and change pH8 into; Change time of repose into 30min, change the weight ratio of overlay film cold cathode green emitting phosphor and secondary overlay film liquid into 1: 5, Al ₂ O ₃ Change Weight To cold cathode green emitting phosphor weight 0.2%; With step e) in bake out temperature change 120 ℃ into, drying time changes 300min into, changes firing temperature into 500 ℃, firing time changes 60min into.All the other are all with the description to embodiment 1.

Embodiment 3:

Only with steps A) in the mass percent concentration of the first overlay film liquid change 6% into; With step B) in the temperature rise rate that changes into 10 ℃/min of water-bath heating be warming up to 50 ℃, regulate pH value and change pH7 into, change the time of continuing to heat into 150min; Temperature changes 50 ℃ into; Promptly be incubated 150min down at 50 ℃, stirring velocity changes 200n/min into, and time of repose changes 90min into; The weight ratio of the cold cathode green emitting phosphor and the first overlay film liquid changes 1: 7.5 into, NaOH solution and Y (NO ₃ ) ₃ Weight ratio change 2.0: 1 into, Y ₂ O ₃ Change Weight To cold cathode green emitting phosphor weight 0.25%; With step C) in the mass percent specific concentration of the second overlay film liquid change 12.5% into; With step D) in the temperature rise rate that changes into 10 ℃/min of the parameter that heats while stirring be warming up to 80 ℃; Stirring velocity changes 200n/min into; To and then regulate the pH value and change pH7 into; Change time of repose into 45min, change the weight ratio of overlay film cold cathode green emitting phosphor and secondary overlay film liquid into 1: 5.5, Al ₂ O ₃ Change Weight To cold cathode green emitting phosphor weight 0.3%; With step e) in bake out temperature change 110 ℃ into, drying time changes 450min into, changes firing temperature into 400 ℃, firing time changes 190min into.All the other are all with the description to embodiment 1

Claims (10)

1. A kind of cold cathode green emitting phosphor of composite oxides coating; By kernel (1) be positioned at the outer shell (2) of kernel (1) and constitute; Described kernel (1) is the cold cathode green emitting phosphor, it is characterized in that: described shell (2) is made up of the first overlay film layer (21) and the second overlay film layer (22), and the first overlay film layer (21) is incorporated into the surface of described kernel (1); And the second overlay film layer (22) is incorporated into the surface of the first overlay film layer (21), and wherein: the described first overlay film layer (21) is Y ₂ O ₃ , and the described second overlay film layer (22) is Al ₂ O ₃

2. The cold cathode green emitting phosphor of composite oxides coating according to claim 1 is characterized in that described cold cathode green emitting phosphor is LaPo ₄ : Ce, Tb.

3. The cold cathode green emitting phosphor of composite oxides coating according to claim 1 is characterized in that described Y ₂ O ₃ Weight be the 0.1-0.5% of said cold cathode green emitting phosphor weight, and described Al ₂ O ₃ Weight be the 0.2-0.4% of cold cathode green emitting phosphor weight.

4. A kind of cold cathode preparation method of green emitting phosphor of composite oxides coating as claimed in claim 1 is characterized in that may further comprise the steps:

A) produce the first overlay film liquid, with Y (NO ₃ ) ₃ Join in the deionized water and dissolve, obtain the first overlay film liquid, and control the mass percent concentration of the first overlay film liquid;

B) overlay film will join as the cold cathode green emitting phosphor of kernel (1) in the first overlay film liquid, behind ultra-sonic dispersion, be transferred to the water-bath heating; And the control Heating temperature, then adding mol concentration is the NaOH solution of 0.5mol/L, and regulates pH; Continue heating and stirring when continuing heating; Then leave standstill, introduce the dewatering unit dehydration at last, obtaining surface bonding has by Y ₂ O ₃ An overlay film cold cathode green emitting phosphor of the first overlay film layer of filling the post of (21), wherein: the weight ratio of described cold cathode green emitting phosphor and the said first overlay film liquid is 1: 7-8, described NaOH solution and Y (NO ₃ ) ₃ Weight ratio be 1.8-2.4: 1, and described Y ₂ O ₃ Weight be the 0.1-0.5% of said cold cathode green emitting phosphor weight;

C) produce the second overlay film liquid, with Al ₂ O ₃ Join in the deionized water and dissolve, obtain the second overlay film liquid, and the mass percent concentration of the second overlay film liquid;

D) secondary overlay film joins an overlay film cold cathode green emitting phosphor in the second overlay film liquid, and heats while stirring, and then regulates pH, then leaves standstill, and removes supernatant liquid, obtains having by Al in the surface bonding of the first overlay film layer (21) ₂ O ₃ The secondary overlay film cold cathode green emitting phosphor of the second overlay film layer of filling the post of (22), wherein: the weight ratio of a described overlay film cold cathode green emitting phosphor and the said second overlay film liquid is 1: 5-6, and described Al ₂ O ₃ Weight be the 0.2-0.4% of cold cathode green emitting phosphor weight;

E) dries and burn till; Earlier secondary overlay film cold cathode green emitting phosphor is introduced the baking apparatus oven dry; Then introduce kiln roasting; Come out of the stove after cooling to room temperature with the furnace, the surface that obtains kernel 1 has the cold cathode green emitting phosphor of the composite oxides coating of the shell (2) that is made up of first, second overlay film layer (21,22).

5. the cold cathode preparation method of green emitting phosphor of composite oxides coating according to claim 4 is characterized in that steps A) described in the mass percent concentration of the control first overlay film liquid be that mass percent concentration is controlled to be 2-10%.

6. the cold cathode preparation method of green emitting phosphor of composite oxides coating according to claim 4; It is characterized in that step B) described in the Heating temperature of water-bath heating be 50-100 ℃; Temperature rise rate in the heat-processed is 10 ℃/min, and described adjusting pH is adjusted to 3-10 with the pH value, and the time of described continuation heating is 2-3h; Temperature is 50-100 ℃; The speed of described stirring is 100-300n/min, and the described time of leaving standstill is 60-120min, and described dewatering unit is a whizzer.

7. The cold cathode preparation method of green emitting phosphor of composite oxides coating according to claim 4 is characterized in that step C) described in the mass percent concentration of the control second overlay film liquid be that mass percent concentration is controlled to be 10-15%, described Al ₂ O ₃ Be nanometer Al ₂ O ₃

8. the cold cathode preparation method of green emitting phosphor of composite oxides coating according to claim 4; It is characterized in that step D) described in the Heating temperature that heats while stirring be 50-100 ℃; Temperature rise rate is 10 ℃/min, and stirring velocity is 100-300n/min; Described and then adjusting pH is adjusted to 6-8 with the pH value; The described time of leaving standstill is 30-60min.

9. the cold cathode preparation method of green emitting phosphor of composite oxides coating according to claim 4 is characterized in that step e) described in the temperature of oven dry be 100-120 ℃, the time is 300-600min.

10. The cold cathode preparation method of green emitting phosphor of composite oxides coating according to claim 4 is characterized in that step e) described in stove be retort furnace, described temperature of burning till is 300-500 ℃, firing time is 60-300min

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