KR20050029789A - Organic electro luminescence panel having layer for preventing humidity from percolation and method of manufacturing the same - Google Patents

Abstract

An organic electro-luminescence panel having an anti-humidity layer and a fabricating method thereof are provided to improve electrical characteristics by restraining a reaction between an organic layer and hydrogen in a process for forming the anti-humidity layer. An organic electro-luminescence panel includes an anti-humidity layer. The anti-humidity layer includes an SiNx layer(110), a planarization layer(120), a laminated SiON/barrier/SiON layer(130), and a protection layer(140). The SiNx layer(110) is formed on an organic electro-luminescence panel(100). The planarization layer(120) is formed on the SiNx layer(110). The laminated SiON/barrier/SiON layer(130) is formed on the planarization layer(120). The protection layer(140) is formed on the laminated SiON/barrier/SiON layer(130).

Description

Organic EL panel with moisture barrier film and method for manufacturing the same {Organic electro luminescence panel having layer for preventing humidity from percolation and method of manufacturing the same}

The present invention relates to an organic EL panel having a moisture barrier film and a method of manufacturing the same, and more particularly, when the organic EL panel is plasma-treated with N ₂ gas to form a moisture barrier film on the organic EL panel, Reaction can be suppressed, moisture and oxygen permeated from the outside of the panel is primarily suppressed by the SiON / barrier / SiON laminated film, and secondly suppressed by the SiNx film, moisture permeability can improve the characteristics of the device The organic EL panel provided with a prevention film, and its manufacturing method.

In general, an organic electroluminescent device is a device in which light is emitted when holes supplied from an anode and holes supplied from a cathode are injected into an organic layer disposed between an anode and a cathode and combined within an organic layer.

Therefore, organic electroluminescent devices are used in display devices because of their simple structure and their ability to emit high density multicolored light at low pressure.

The display device formed of the organic EL device does not need a back light as compared to a TFT liquid crystal display (LCD), does not have a deterioration in luminance due to a color filter, and needs to be supplied with electricity when driving a black screen. There is an advantage that the viewing angle is very good because there is no power consumption, low power consumption, and light refraction is not used.

At present, in order to prevent external impurities such as moisture and oxygen from penetrating into the device to prevent shrinkage of the light emitting area, an organic light emitting device is packaged with a can and a desiccant is used in the can. To prevent external penetration.

1 is a schematic cross-sectional view of an organic electroluminescent display in which a can is packaged according to the prior art. In the organic electroluminescent display, a transparent anode electrode 12 is formed on a glass substrate 11, and the anode electrode ( The organic layer 13 is formed on the upper portion of the substrate 12, the cathode electrode 14 is formed on the organic layer 13, and the insulating layer 15 is formed on the side surfaces of the organic layer 13 and the cathode electrode 14. And the partition wall 16 is formed.

In order to package the can in the organic electroluminescent display, first, a hygroscopic agent 22 is inserted into the can 20, and the can 20 is UV-sealed on the upper portion of the glass substrate 11. What is necessary is just to perform the process of adhering with (21).

Here, the can 20 prevents gas and moisture introduced into the display panel from the outside, and the moisture absorbent 22 absorbs the outgassed gas generated in the organic electroluminescent display panel.

However, when the can is used, the thickness of the device becomes thick, disadvantageous in terms of cost, and when the sealant is used to bond with the organic substrate of the organic electroluminescent display panel, this material is generated in the sealant and the organic layer of the panel. It causes great damage.

In order to solve this problem, a research on a passivation thin film is being conducted without using a can.

When using a passivation thin film, formation of a moisture barrier film is important.

However, the current moisture barrier film does not effectively suppress moisture or oxygen that penetrates from the outside.

Accordingly, the present invention has been made to solve the problems described above, when the organic EL panel plasma treatment with N ₂ gas to form a moisture barrier film in the organic EL panel, it is possible to suppress the reaction between the organic layer and hydrogen The organic EL with a moisture barrier film that can improve the properties of the device by primarily suppressing moisture and oxygen penetrating from the outside of the panel in the SiON / barrier / SiON laminated film and secondly suppressing the SiNx film. It is an object to provide a panel and a method of manufacturing the same.

A preferred aspect for achieving the above object of the present invention is an organic EL panel comprising a moisture barrier film,

The moisture barrier film,

A SiNx film formed on the organic EL panel;

A planarization layer formed on the SiNx film;

A laminated film of a SiON layer / barrier layer / SiON layer formed on the planarization layer;

Provided is an organic EL panel having a moisture barrier film, comprising a protective layer formed on the laminated film.

Another preferred aspect for achieving the above object of the present invention is a first step of plasma treatment of an organic EL panel with N ₂ gas;

Forming a SiNx film on the organic EL panel;

Forming a planarization layer on the SiNx film;

Forming a stacked film of a SiON layer / barrier layer / SiON layer on the planarization layer;

Provided is a method of manufacturing an organic EL panel having a moisture barrier film formed of a fifth step of forming a protective layer on the laminated film of the SiON layer / barrier layer / SiON layer.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a cross-sectional view of an organic EL panel having a moisture barrier film according to the present invention, the organic EL panel 100; A SiNx film 110 formed on the organic EL panel 100; A planarization layer 120 formed on the SiNx film 110; A laminated film 130 of a SiON layer / barrier layer / SiON layer formed on the planarization layer 120; It is composed of a protective layer 140 formed on the laminated film 130.

3a to 3d are process charts for manufacturing an organic EL panel having a moisture barrier film according to the present invention. First, in order to suppress the reaction between the organic layer of the organic EL panel 100 and hydrogen, After performing a plasma treatment with N ₂ gas, a SiN x film 110 is formed on the organic EL panel 100 (FIG. 3A).

Here, in the process of performing a plasma treatment with N ₂ gas on the organic EL panel 100, after inserting the organic EL panel into the plasma reactor, only the treatment surface of the organic EL panel is exposed, the organic EL panel is formed to form a plasma state. In this case, a plasma state is brought into contact with the processing surface of the panel 100.

1) N ₂ gas amount is 30sccm ~ 1000sccm,

2) During plasma excitation, the RF power is 20 to 100 Watts,

3) The pressure in the reactor is 0.1 to 2 torr,

4) The heating temperature inside the reactor is performed under the conditions of 50 ~ 100 ℃.

And, the step of forming the SiNx film 110,

1) SiN ₄ gas is used as a source gas for forming a SiNx film, and N ₂ or NH ₃ is used as the gas reacting with the SiN ₄ gas, and the amount of each gas is 30 to 500 sccm,

2) In plasma excitation, RF power is 20 ~ 200 Watts,

3) The pressure in the reactor is 0.1 to 2 torr,

4) The heating temperature inside the reactor is carried out under the conditions of 50 ~ 100 ℃.

In FIG. 3B, a planarization layer 120 is formed on the SiNx film 110 to planarize the SiNx film 110.

Here, the planarization layer 120 is preferably formed by spin-coating a photocurable resin or by applying screen printing and then irradiating and curing ultraviolet rays.

Thereafter, as shown in FIG. 3C, a laminated film 130 of a SiON layer / barrier layer / SiON layer is formed on the planarization layer 120.

Here, the formation of the SiON films,

1) Injecting any one selected from O ₂ , O ₃ and N ₂ O into a plasma reactor about 30 to 500 sccm,

2) During plasma excitation, RF power is 20Watt ~ 1 kWatt,

3) The pressure in the reactor is 0.01 to 2 torr,

4) Heating temperature inside the reactor is carried out under the conditions of 30 ~ 100 ℃.

In addition, the barrier layer is formed to primarily block moisture penetrating from the outside of the panel, it is preferable to use Al, TiN, TaN, WN, TiSiN, TaSiN, TiO ₅ , Al ₂ O ₃ , Any of TiO ₂ , HFO ₂ and In ₂ O ₃ may be used.

When the barrier layer is formed of Al, an aluminum layer is formed by using a sputter.

1) Use Ar as 30 ~ 500sccm as inert gas,

2) During plasma excitation, RF power is 100 to 2 kWatt,

3) The pressure in the reactor is 0.1 to 10 torr,

4) The heating temperature inside the reactor is carried out under the conditions of 50 ~ 100 ℃.

Finally, as shown in FIG. 3D, the protection layer 140 is formed on the stacked layer 130 of the SiON layer / barrier layer / SiON layer to protect the device.

The protective layer 140 and the planarization layer 120 described above are formed by spin coating a photocurable resin or applying a screen printing and then irradiating and curing ultraviolet rays.

As described above, the gas amounts described above are conditions for optimizing the thicknesses of the formed films, RF power and reactor pressure are conditions for forming plasma, and the heating temperature range inside the reactor is lowered to 100 ° C. or lower, In order to prevent damage to the organic EL panel in the plasma state at a high temperature.

As described in detail above, the present invention can suppress the reaction between the organic layer and hydrogen when forming a moisture barrier film on the organic EL panel by plasma treatment of the organic EL panel with N ₂ gas, and moisture penetrates from the outside of the panel. And by suppressing oxygen primarily in the SiON / barrier / SiON laminated film and secondly suppressing it in the SiNx film, there is an effect of improving the characteristics of the device.

Although the invention has been described in detail only with respect to specific examples, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

1 is a schematic cross-sectional view of an organic electroluminescent display packaged in a can according to the prior art.

2 is a cross-sectional view of an organic EL panel having a moisture barrier film according to the present invention

3a to 3d is a manufacturing process diagram of the organic EL panel having a moisture barrier film according to the present invention

<Description of the symbols for the main parts of the drawings>

11 glass substrate 12 anode electrode

13 organic film 14 cathode electrode

15 insulating film 16 partition wall

20: can 21: sealant

22: absorbent 100: organic EL panel

110 SiNx film 120 planarization layer

130: laminated film of SiON layer / barrier layer / SiON layer 140: protective layer

Claims (9)

In the organic EL panel having a moisture barrier film, The moisture barrier film, A SiNx film formed on the organic EL panel; A planarization layer formed on the SiNx film; A laminated film of a SiON layer / barrier layer / SiON layer formed on the planarization layer; An organic EL panel having a moisture barrier film, characterized in that consisting of a protective layer formed on the laminated film. The method of claim 1, The planarization layer and the protective layer, An organic EL panel having a moisture barrier film, which is formed of a photocurable resin. The method according to claim 1 or 2, The barrier layer constituting the laminated film, An organic EL panel having a moisture barrier film, which is formed of any one of Al, TiN, TaN, WN, TiSiN, TaSiN, TiO ₅ , Al ₂ O ₃ , TiO ₂ , HFO ₂ and In ₂ O ₃ . Performing a plasma treatment on the organic EL panel with N ₂ gas; Forming a SiNx film on the plasma-treated organic EL panel; Forming a planarization layer on the SiNx film; Forming a stacked film of a SiON layer / barrier layer / SiON layer on the planarization layer; A method of manufacturing an organic EL panel having a moisture barrier film, comprising a fifth step of forming a protective layer on the stacked layer of the SiON layer / barrier layer / SiON layer. The method of claim 4, wherein The condition for performing the first step is N ₂ gas amount is 30sccm ~ 1000sccm, In plasma excitation, the RF power is 20 to 100 watts, The pressure of the plasma is 0.1-2 torr, A method for producing an organic EL panel having a moisture barrier film, characterized in that the temperature of the plasma state is 50 ~ 100 ℃. The method of claim 4, wherein Conditions for performing the second step, SiN ₄ gas is used as a source gas for forming a SiNx film, N ₂ or NH ₃ is used as the gas reacting with the SiN ₄ gas, and each gas amount is 30 to 500 sccm, When plasma excited, RF power is 20-200 Watts, The pressure of the plasma is 0.1-2 torr, A method for producing an organic EL panel having a moisture barrier film, characterized in that the temperature of the plasma state is 50 ~ 100 ℃. The method of claim 4, wherein The barrier layer constituting the laminated film, Manufacturing method of organic EL panel with moisture barrier film, characterized in that formed by any one of Al, TiN, TaN, WN, TiSiN, TaSiN, TiO ₅ , Al ₂ O ₃ , TiO ₂ , HFO ₂ and In ₂ O ₃ . The method of claim 4, wherein In the fourth step, forming a laminated film of a SiON layer / barrier layer / SiON layer on the planarization layer, Ar gas amount is 30 ~ 500sccm, In plasma excitation, the RF power is 100 to 2 kWatt, The pressure of the plasma is 0.1-10 torr, A method of manufacturing an organic EL panel having a moisture barrier film, characterized in that the temperature of the plasma state is carried out at 50 ~ 100 ℃. The method of claim 4, wherein The planarization layer and the protective layer, A method of manufacturing an organic EL panel having a moisture barrier film, wherein the photocurable resin is coated by spin coating or screen printing and then irradiated with ultraviolet rays to cure the photocurable resin.