JPS63276892A - Electroluminescent lamp - Google Patents

Abstract

PURPOSE:To protect a light emitting layer emitting an optional color as well as to aim at the prevention of luminous brightness and the prolongation of usefull life by covering a phosphor grain with a moisture resistant and waterproof film inclusive of a dispersed pigment. CONSTITUTION:A light emitting layer 3 emits light by an electric field by means of a back electrode 1 and a transparent electrode 4. This light emitting layer 3 is formed by what the phosphor grain 10 coated with a moisture resistant and waterproof film 9 is dispersed and included in dielectric material 8 of cyanoethyle cellulose or the like. This moisture resistant and waterproof film 9 is formed by what the required pigment is dispersed and included in a ceramic coating agent in the silica-based constituted of making metal alkoxide as the chief ingredient. With this constitution, the phosphor grain 10 performs its electroluminescence of the specified color according to a kind of the pigment, and since a moisture resistant and waterproof state is kept by the film 9, the luminous brightness is secured for hours.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to an electroluminescent lamp, and particularly to an improvement in a light emitting layer that emits light when an electric field is applied thereto.

(Prior art) Organic electroluminescent lamps, which are used to display characters and figures and as a light source for liquid crystal displays, generally have a back electrode made of aluminum foil, etc., and barium titanate powder in an organic dielectric material. It consists of a reflective insulating layer made of an insulating material mixed with the like, a light-emitting layer made of phosphor particles dispersed in an organic dielectric material, a transparent electrode, a substrate film, and a transparent resin outer film.

In such an electroluminescent lamp, an alternating current voltage is applied between a back electrode and a transparent electrode to apply an alternating current electric field to the phosphor particles in the light emitting layer, thereby exciting them to emit light.

By the way, in an electroluminescent lamp with such a basic configuration, the phosphor particles themselves emit light with their own unique emission color, but in order to obtain an arbitrary emission color different from the emission color specific to the phosphor particles, it is possible to There is the following conventional technology.

One conventional technique is, for example, in which a pigment layer is further formed on the transparent electrode and substrate film, and the light emitted from the light emitting layer is passed through the pigment layer, thereby making it possible to obtain any luminescent color. . Another conventional technique is to construct a light-emitting layer by simultaneously dispersing phosphor particles and a pigment in a coating agent, and to emit light from the light-emitting layer with a color different from the color inherent to the phosphor particles. There is a device that allows you to obtain a luminous color of .

On the other hand, the luminance and lifespan of such an electroluminescent lamp are determined not only by external conditions such as the magnitude of the alternating current voltage applied between the two electrodes and the frequency of the alternating voltage, but also by the internal conditions of the light emitting layer.
For example, it has been pointed out that it is greatly influenced by the absorption of external moisture.

However, to date, there has been no electroluminescent lamp that uses pigments to emit light in any desired color and at the same time provides protection from external moisture.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide an electroluminescent lamp that can prevent the luminance of an electroluminescent lamp from decreasing due to external humidity and shorten its lifespan, and at the same time can emit light in any color. It is said that

(Means for Solving the Problems) In order to achieve the above object, the present invention provides moisture resistance and moisture resistance on the surface.
It includes a light-emitting layer using phosphor particles coated with a water-resistant film, and the moisture-resistant and water-resistant film includes a coating agent with excellent moisture and water resistance, and a pigment dispersed in the coating agent. It is characterized by having a configuration including.

Further, in the present invention, preferably, the coating agent is composed of a silica-based ceramic coating agent containing a metal alkoxide as a main component.

(Function) Since the surface of the phosphor particles is coated with a water-resistant/moisture-resistant film, the phosphor particles are protected from external moisture by the water-resistant/moisture-resistant film, and as a result, the electroluminescent lamp This makes it possible to prevent a decrease in luminance and extend the life of the light emitting device.

Furthermore, since the water-resistant/moisture-resistant film is constructed by dispersing pigments in a coating agent, it is possible to obtain any luminescent color by changing the pigment.

(Example) Hereinafter, an example of the present invention will be described in detail with reference to the drawings. The figure is a structural sectional view of an electroluminescent lamp according to an embodiment of the present invention. In this figure, reference numeral 1 denotes a back electrode made of aluminum foil, etc., 2 a reflective insulating layer made of an insulating material made of an organic dielectric material such as cyanoethyl cellulose mixed with barium titanate powder, etc.; 3 is a light-emitting layer in which phosphor particles are dispersed in an organic dielectric material such as cyanoethylcellulose, 4 is a transparent electrode such as ITO, 5 is a film serving as a base material for the transparent electrode 4, and 6 and 7 are resin outer films. It is.

In an electroluminescent lamp having the basic configuration as described above,
The present invention is characterized by the structure of the light emitting layer 3. That is, the light-emitting layer 3 is made of a dielectric material 8 such as cyanoethyl cellulose, a coating agent on the surface, and a pigment dispersed in the coating agent, as shown in a partially enlarged circle. For example, phosphor particles 10 such as Zn5-cu, which emit green light, are dispersed and coated with water-resistant and moisture-resistant IK9.

Examples of the coating agent include a silica-based ceramic coating agent, a water-insoluble monomer, a prepolymer, and even a polymer, and examples of the pigment include rhodamine (trade name), which is orange in color, or rhodamine, which is also orange in color. Safranin (trade name) is available.

The silica-based ceramic coating agent includes, for example, a silica (water-alcohol mixed solvent)-based ceramic coating agent containing a metal alkoxide as a main component, for example, an alkoxysilane as a main component. This ceramic coating agent includes, for example, Glass Power (trade name),
There is CPI (product name) or CRC (product name).

As the water-insoluble monomer or polymer,
Examples include styrene, methacrylate, α-methylstyrene, divinylbenzene, vinylsiloxane, modified silicone prepolymer, and polyester. Examples of the water-insoluble polymer include polyethylene, polymethyl methacrylate, and polycarbonate.

The phosphor particles coated with a water-resistant/moisture-resistant film in this way emit green light, but
Since it is coated with an orange pigment such as rhodamine, wavelength conversion is performed by the pigment, and the color of the light emitted from the light emitting layer 3 is white. In addition, since the phosphor particles are coated with a water-resistant/moisture-resistant film, the phosphor particles are not affected by external moisture, and as a result, it is possible to prevent a decrease in luminance and extend the lifespan. .

Next, three exemplary steps for depositing the water-resistant/moisture-resistant film 9 on the surface of the phosphor particles 10 will be described.

(1) First adhesion treatment step: In this adhesion treatment step, whether the coating agent is a silica-based ceramic coating agent or a water-insoluble monomer, prepolymer, or polymer, Can be applied. First, a mixed solution is prepared in which a pigment such as rhodamine is mixed in a silica-based ceramic coating agent or a water-insoluble monomer, prepolymer, or polymer coating agent.

Next, this mixed solution is applied to the surface of the phosphor particles by a spray method, or the phosphor particles are placed in the mixed solution.
The child is immersed (for example, by dipping method). As a result, a water-resistant/moisture-resistant film is deposited on the surface of the phosphor particles.

Then, the phosphor particles coated with a water-resistant/moisture-resistant film are dried. The deposition process is completed.

(2) Second adhesion treatment step: This adhesion treatment step is applied when a water-insoluble polymer is used as the coating agent. However, as the water-insoluble polymer, a polymer solution of polyethylene, polymethyl methacrylate, polycarbonate, etc. is used. First, a mixed solution is prepared by dispersing phosphor particles in a water-insoluble polymer solution. At this time, the pigment is dissolved in the mixed solution in advance. Next, a polymer non-solvent is added to this mixed solution to form a concentrated polymer phase on the surface of the phosphor particles. By separating the phosphor particles encapsulated by this polymer-rich phase, the second process of applying a water-resistant/moisture-resistant film to the surface of the phosphor particles is completed.

(3) Third adhesion treatment: This adhesion treatment step is applied when a water-insoluble monomer or prepolymer is used as the coating agent, similarly to the second adhesion treatment step. As the water-insoluble monomer or prepolymer, liquid monomers or prepolymers such as styrene, methacrylate, α-methylstyrene, divinylbenzene, vinylsiloxane, modified silicone prepolymers, and polyesters are used. First, a mixed solution is prepared by dispersing phosphor particles in a water-insoluble polymer solution. and,
At this time, the pigment is dissolved in the mixed solution in advance. Next, a non-solvent of the monomer or prepolymer is added to this mixed solution to form a concentrated phase of the polymer on the surface of the phosphor particles. The phosphor particles encapsulated by this polymer dense phase are separated and cured by heating or ultraviolet irradiation, completing the third coating process of a water-resistant/moisture-resistant film on the surface of the phosphor particles. do.

A moisture-proof film can be applied to the surface of the phosphor particles by any of the above steps.

(Effects of the Invention) As is clear from the above explanation, according to the present invention,
Since a water-resistant film is coated on the surface of the phosphor particles, the phosphor particles are no longer affected by external moisture, making it possible to prevent the luminance of the phosphor particles from decreasing and extend their lifespan. becomes.

At the same time, since the water-resistant film is constructed by dispersing pigments in a coating agent, it has become possible for an electroluminescent lamp to emit light in any desired color.

[Brief explanation of the drawing]

The drawing is a cross-sectional view of the structure of an electroluminescent lamp according to an embodiment of the present invention. In the figure, 1... Back electrode, 2... Reflective insulating layer, 3...
- Light emitting layer, 4... Transparent electrode, 5... Substrate film,
6.7...Resin outer film, 8...Organic dielectric material,
9... Water resistant/moisture resistant film, 10... Fluorescent particles.

Claims (2)

[Claims] (1) It includes a light-emitting layer using phosphor particles whose surface is coated with a moisture-resistant/water-resistant film, and the moisture-resistant/water-resistant film includes a coating agent having excellent moisture and water resistance, and the coating. An electroluminescent lamp characterized by comprising a pigment dispersed in an agent. (2) The electroluminescent lamp according to claim 1, wherein the coating agent is a silica-based ceramic coating agent containing metal alkoxide as a main component.