KR20030052048A - Method for sealing of organic electroluminescence device - Google Patents

Abstract

PURPOSE: A sealing method for an organic electroluminescence device is provided to allow the electroluminescence device to operate in a stable manner over a long period of time by sealing the device together with the material containing a combustion gas. CONSTITUTION: A sealing method is characterized in that a material containing a combustion gas is added in the organic electroluminescence device sealing process, to thereby emit the combustion gas even after the completion of sealing process. The material containing the combustion gas is an activated carbon where an oxygen is over adsorbed.

Description

Method for sealing of organic electroluminescence device

The present invention relates to a sealing method of an organic EL device (Organic Electro-Luminescence device).

In general, as the size of the display device increases, the demand for a flat display device having less space occupancy is increasing. One of such flat display devices includes an organic EL device.

The organic EL device is a device that emits light when electrons and holes are paired and then disappear when electrons are injected into the organic light emitting layer formed between the electron injection electrode (cathode) and the hole injection electrode (anode).

FIG. 1 is a conceptual diagram illustrating the structure of such an organic EL device, and includes a first electrode 11 such as indium tin oxide (ITO) formed on a transparent substrate in a stripe shape, and the first electrode ( 11) and an organic light emitting layer 12 formed on the organic light emitting layer 12 and a second electrode 13, such as a metal, formed on the organic light emitting layer 12.

The organic light emitting layer 12 includes at least two separate organic layers, that is, one layer for injecting and transporting electrons and one layer for forming an area for injecting and transporting holes in the device. Multiple layers may be further included. The layer for injecting and transporting electrons and the layer for injecting and transporting holes may be divided into an electron injection layer, an electron transport layer, a hole injection layer, and a hole transport layer, respectively.

In addition, the organic light emitting layer 12 may further include a light emitting layer in addition to the electron injection and transport layer and the hole injection and transport layer.

The second electrode 13 of the organic EL device having such a structure injects electrons through an electron injection and transport layer (or an electron injection layer and an electron transport layer, respectively), and the first electrode 11 is a hole injection and transport layer (or By injecting holes through the hole injection layer and the hole transport layer, respectively, electrons and holes are paired in the organic light emitting layer 12 and then disappear, and energy is emitted as light.

However, when the organic EL device is manufactured as shown in FIG. 1, a leakage source is generated due to protrusions on the ITO surface or particles on the substrate. As a result, the efficiency of the organic EL element is lowered and a pixel which does not emit light is produced.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to seal an organic EL device which stably drives an organic EL device by sealing a material containing a combustion gas together in the device. In providing a method.

1 is a structural cross-sectional view of a general organic EL device

Explanation of symbols for main parts of the drawings

11: first electrode 12: organic light emitting layer

13: second electrode (cathode)

In the sealing method of the organic EL device according to the present invention for achieving the above object, when the charge is injected into the organic light emitting layer formed between the electron injection electrode and the hole injection electrode, the electrons and holes are paired and then extinguish light It is characterized by adding and sealing the substance containing oxidizing gas at the time of sealing process of organic electroluminescent element, and to make an oxidizing gas come out continuously after sealing.

The material containing the oxidizing gas is characterized in that the activated carbon is oxygen adsorbed.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments taken in conjunction with the accompanying drawings.

Hereinafter, with reference to the accompanying drawings illustrating the configuration and operation of the embodiment of the present invention, the configuration and operation of the present invention shown in the drawings and described by it will be described as at least one embodiment, By the technical spirit of the present invention described above and its core configuration and operation is not limited.

In the present invention, when the organic EL device is sealed, a substance containing the oxidizing gas is put together in the device to seal the oxidizing gas continuously after the sealing. This makes driving the organic EL element stable in the long term.

At this time, the material containing the oxidizing gas is activated carbon is oxygen adsorbed.

The activated carbon is physically adsorbed with oxygen. The lower the temperature, the higher the pressure, the greater the amount of oxygen adsorption.

On the other hand, activated carbon over-adsorbed oxygen releases oxygen at higher temperature and lower pressure.

Therefore, when the organic EL device is sealed, activated carbon containing oxygen is adsorbed at a low temperature (eg 0 degrees or less) is sealed. Activated carbon can then act as a source of oxygen.

That is, since the organic EL element is usually driven at room temperature, the internal activated carbon of the substrate bonded at the low temperature releases the adsorbed oxygen as the temperature increases. This oxygen is then consumed because it oxidizes the metal where leakage occurs. When the pressure is lowered due to the consumption of oxygen, oxygen is released from the activated carbon again.

The amount and persistence of this oxygen can be controlled by the amount of activated carbon that is added.

Therefore, an appropriate amount of activated carbon may be added and sealed to suit the lifespan of the organic EL device.

Leakage can be eliminated by applying a voltage to the device thus made at a high temperature (eg, about 80 degrees).

As mentioned above, according to the sealing method of the organic electroluminescent element which concerns on this invention, the organic electroluminescent element becomes stable in a long term by putting together the material containing oxidizing gas together in an organic electroluminescent element, and sealing it, and letting out oxidizing gas continuously after sealing. It is effective to drive.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

Claims (4)

In the sealing method of an organic EL device which emits light by dissipating electrons and holes when paired with electrons and holes when the charge is injected into the organic light emitting layer formed between the electron injection electrode and the hole injection electrode, A material containing an oxidizing gas is added during the sealing step of the organic EL element, so that the oxidizing gas is continuously emitted even after the sealing. The method of claim 1, The material containing the oxidizing gas is activated carbon in which oxygen is excessively adsorbed. The method of claim 2, The activated carbon is physically adsorbed with oxygen, and the lower the temperature, the higher the pressure, the greater the amount of oxygen adsorption. On the contrary, the activated carbon, which is over-adsorbed with oxygen, releases oxygen when the temperature is higher and the pressure is lowered. Sealing method of the device. The method of claim 2, Sealing method of an organic EL device characterized in that the sealing is put at a low temperature by the activated carbon is oxygen-adsorbed.