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Surface-treated fluorescent bodies and process for production of surface-treated fluorescent bodies

A technology of surface treatment and manufacturing method, which is applied in the field of surface treatment phosphor manufacturing, which can solve the problems of reaction efficiency and cost, uneven coverage of pinholes, and reduction of fluorescent characteristics, and achieve improved moisture resistance, high stability, and moisture resistance. sex improvement effect

Inactive Publication Date: 2012-12-12
SEKISUI CHEM CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] However, since the gas-phase method disclosed in Patent Documents 3 and 4 is difficult to completely disperse the finely powdered phosphor particles, it is difficult to cover the surface of each phosphor particle uniformly and comprehensively in reality, and there is a tendency to cause Issues such as pinholes or uneven coverage
In addition, since the gas phase method is usually carried out at a high temperature of 400°C or higher, there is a problem that the fluorescence characteristics after treatment will be significantly lowered depending on the type of phosphor.
Furthermore, since the device is large, the manufacturing component is improved
[0011] On the other hand, when using the sol-gel method (Patent Documents 5, 6, and 7), which is a liquid phase method, although the degree of freedom in selecting the type of coating is large, the metal alkoxide as the starting material is generally highly reactive. , so it is difficult to control the reaction conditions that initiate the hydrolysis reaction only on the surface of phosphor particles
In addition, the film obtained by the sol-gel method contains organic components such as alkoxy groups remaining due to incomplete hydrolysis and alcohols detached during the hydrolysis reaction, so it is usually difficult to obtain a dense film.
[0012] Furthermore, in the coating method disclosed in Patent Document 5, since the hydrolysis reaction is carried out in the presence of excess ammonia water, most of the raw materials are reacted and consumed in a solution other than the surface of the phosphor particles, and there are problems in reaction efficiency and cost. The problem
Moreover, since the phosphor contains excessive ammonia water, the phosphor may be hydrolyzed and deteriorated during the reaction treatment.
[0013] In the method disclosed in Patent Document 6, although the Si-containing compound as a coating is carried on the surface of phosphor particles in a granular or layered form, practically no improvement in moisture resistance is found.
In addition, the reaction conditions described in the examples of Patent Document 6 hardly cause a coating reaction on the surface of phosphor particles, and even if a part can be covered, there is a problem that it is difficult to effectively block water vapor in the case of particle-like coating.
[0014] The method disclosed in Patent Document 7 requires long-time reaction, precise temperature, and process control, and has problems in effect and composition
[0015] On the other hand, in the neutralization precipitation method disclosed in Patent Document 8, it is actually difficult to deposit the coating in the form of a continuous film on the surface of the phosphor particles.

Method used

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  • Surface-treated fluorescent bodies and process for production of surface-treated fluorescent bodies
  • Surface-treated fluorescent bodies and process for production of surface-treated fluorescent bodies
  • Surface-treated fluorescent bodies and process for production of surface-treated fluorescent bodies

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0156] Containing 0.1mol / L ammonium fluoride titanate ((NH 4 ) 2 TiF 6 ) and 0.1mol / L boric acid mixed aqueous solution 250ml to add the central particle size (D 50 ) about 17μm orange silicate phosphor (Sr 3 SiO 5 :Eu 2+ )7.5g. The above-mentioned phosphor-added liquid mixture was stirred and dispersed, and reacted at 35° C. for 2 hours. After the reaction, the phosphor recovered through the filtration and washing steps was vacuum-dried at 120° C. for 1 hour.

[0157] The obtained surface-treated phosphor was subjected to "measurement of the thickness of the coating layer and elemental composition analysis in the cross-sectional direction" by the following method. As a result, it was found that a surface-treated layer with a thickness of about 180 nm was formed on the surface of the phosphor.

[0158] In addition, in the elemental composition curve obtained by the elemental composition analysis in the cross-sectional direction, it was confirmed that a curve showing the...

Embodiment 2

[0164] Containing 0.1mol / L ammonium fluoride titanate ((NH 4 ) 2 TiF 6 ) and 0.1mol / L boric acid mixed aqueous solution 250ml to add the central particle size (D 50 ) about 17μm orange silicate phosphor (main component: Sr 3 SiO 5 :Eu 2+ )7.5g. The above-mentioned phosphor-added liquid mixture was stirred and dispersed, and reacted at 35° C. for 4 hours. After the reaction, the phosphor recovered through the filtration and washing steps was vacuum-dried at 120° C. for 1 hour.

[0165] The obtained surface-treated phosphor was subjected to "measurement of the thickness of the coating layer and elemental composition analysis in the cross-sectional direction" in the same manner as in Example 1. As a result, it was found that a surface-treated layer with a thickness of about 210 nm was formed on the surface of the phosphor.

[0166] In addition, in the elemental composition curve obtained by the elemental composition analysis in the cross-sectional direction, it was confirm...

Embodiment 3

[0170] Containing 0.75mol / L ammonium fluoride titanate ((NH 4 ) 2 TiF 6 ) to 250ml of an aqueous solution with a central particle size (D 50 ) is about 17μm orange silicate phosphor (main component: Sr 3 SiO 5 :Eu 2+ )7.5g. While stirring and dispersing the phosphor-added liquid mixture, it was allowed to react at 35° C. for 30 minutes. After the reaction, the phosphor recovered through the filtration and washing steps was vacuum-dried at 120° C. for 1 hour.

[0171] The obtained surface-treated phosphor was subjected to "measurement of coating layer thickness and elemental composition analysis in cross-sectional direction" in the same manner as in Example 1. As a result, it was found that a coating layer with a thickness of about 250 nm was formed on the surface of the phosphor.

[0172] In addition, in the element composition curve obtained by the element composition analysis in the cross-sectional direction, it was confirmed that a curve showing the content of titani...

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Abstract

The present invention aims to provide a surface-treated phosphor having high dispersibility and capable of significantly enhancing moisture resistance without deteriorating the fluorescence properties, and a method for producing the surface-treated phosphor. The surface-treated phosphor includes: a phosphor body; and a surface treatment layer containing at least one specific element selected from elements of the third to sixth groups of the periodic table, and fluorine, the phosphor body having the surface treatment layer on the surface thereof, wherein, when a cross section of the surface treatment layer is subjected to a thickness-wise elemental distribution analysis by a combination of an electron microscopic analysis and an energy-dispersive X-ray element analysis, a peak indicating the maximum content of the specific element appears nearer to the surface than a peak indicating the maximum fluorine content.

Description

technical field [0001] The present invention relates to a surface-treated phosphor having remarkably improved moisture resistance and a method for producing the surface-treated phosphor. Background technique [0002] In recent years, semiconductor light-emitting devices (white LEDs) that emit white light have attracted attention as next-generation power sources due to their low power consumption, high efficiency, environmental friendliness, and long life. [0003] In white LEDs, as a method of producing white light, a method of combining blue light or ultraviolet light LEDs with phosphors (red, yellow, green phosphors, etc.) that can be excited by these lights is generally used. [0004] In addition, silicate phosphors containing alkaline earth metal elements have attracted attention because they can easily realize a wide range of emission wavelengths through composition adjustment, and have high luminous efficiency. Among them, as a representative example, there are (Sr, B...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C09K11/08C09K11/59H01L33/50F21V3/00
CPCG09F13/04C09K11/025H01L27/15H01L33/502C09K11/7734C09K11/77342H01L2933/0041
Inventor 孙仁德中谷康弘大村贵宏谷川满渡边贵志
Owner SEKISUI CHEM CO LTD
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