KR20020045777A - A panel for organic light emitting display - Google Patents

Abstract

PURPOSE: A panel for organic field emission element display is provided to improve a contrast ratio of a panel for organic field emission element display by using a thin film a photo reflection rate of which is low. CONSTITUTION: A thin film(2) composed of a substance a photo reflection rate of which is low is laid out on a plate(1). A hole injection electrode(3) is laid out on the thin film(2). An insulation film(4) for forming a pixel unit is laid out on the hole injection electrode(3). An insulation partition(5) for an electric insulation of an electron injection electrode(7) is laid out on the insulation film(4). An organic film(6) for an emission is laid out on the insulation partition(5). The electron injection electrode(7) is laid out on the organic film(6). A protection film(8) is laid out on the electron injection electrode(7).

Description

A panel for organic light emitting display

[Industrial use]

The present invention relates to a panel for an organic electroluminescent device display, and more particularly, an organic electroluminescent device display having a high contrast ratio by introducing a black matrix (BM) in manufacturing an organic electroluminescent device display panel. It is about a dragon panel.

[Prior art]

In the case of a conventional organic electroluminescent device display panel, a hole injection electrode 3 is usually placed on a substrate 1 such as glass, and an insulating film 4 for defining a pixel 19 is placed thereon, and an organic light emitting diode is disposed thereon. The film 6 rises, the electrically insulating partition 5 for patterning the electron injection electrode rises, and the electron injection electrode 7 rises on it (refer FIG. 4, 5).

In the prior art, in manufacturing a panel for an organic electroluminescent device display, first, a hole injection electrode is formed on a substrate such as glass, and an insulating partition wall for patterning the electron injection electrode is raised thereon.

In this case, in order to increase the contrast ratio, an opaque material is used for the insulating film or the insulating partition.

However, in this case, even when an insulating film or an insulating partition is used, the contrast ratio is not improved.

U.S. Patent No. 5,710,484 improves the luminous efficiency by depositing a carbon thin film between the emitting organic film and the hole injection electrode to improve the adhesion between the organic film and the hole injection electrode. Ramparts are formed over a substrate, and electrically insulating ramps disclose a panel for an electroluminescent device having an overhanging structure parallel to the substrate. In this patent, the cathode is automatically patterned without using photolithography, and a reflective film is used to increase luminous efficiency.

In addition, US Patent No. 5,962,970, a method for manufacturing an organic electroluminescent device display panel includes a step of protruding electrically insulating barriers (ramparts) on the substrate to minimize the first display electrode, each of the electrically insulating partitions (ramparts) discloses a method of arranging parallel to the substrate, and insulating partitions and the like improve the efficiency by using a transparent material.

However, this method has a problem in that the panel for the organic EL device has a high aspect ratio by using an inverted insulating partition wall, so that the strength is weak.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems described above, and an object of the present invention is to form a hole injection layer or a hole injection layer before the film for increasing the contrast ratio in an organic electroluminescent device panel. It is to provide a panel for an organic electroluminescent device display having a contrast ratio improved by first forming and forming a hole injection layer before forming.

1 is a view showing a laminated structure of a panel for an organic electroluminescent device display manufactured according to an embodiment of the present invention.

2 is a view showing a laminated structure of a panel for an organic electroluminescent device display manufactured according to another embodiment of the present invention.

3 is a view showing a laminated structure of a panel for an organic light emitting display device manufactured according to another embodiment of the present invention.

4 is a view schematically showing the structure of a panel for an organic EL device according to the prior art.

5 is a view showing a laminated structure of a panel for an organic electroluminescent device display according to the prior art.

Brief description of reference numbers

1: Substrate 2: Opaque thin film with low light reflectance and transmittance

3: hole injection electrode 4: insulating film

5: insulating partition 6: light emitting organic film

7: electron injection electrode 8: protective film

19: pixel portion

The present invention to achieve the above object, the present invention

Substrate 1;

A thin film (2) made of a material having a low light reflectance disposed on the substrate (1);

A hole injection electrode 3 disposed on the thin film;

An insulating film 4 for forming a pixel portion disposed on the hole injection electrode;

An insulating partition wall 5 for electrically insulating an electron injection electrode on the insulating film;

An organic film 6 for emitting light disposed on the insulating partition wall;

An electron injection electrode 7 disposed on the organic layer; And

A protective film 8 formed on the electron injection electrode

It provides a panel for an organic electroluminescent device display comprising a.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

1 is a view showing a panel for an organic electroluminescent device display according to an embodiment of the present invention.

Referring to FIG. 1, a thin film 2 made of an opaque material having low reflectance and low transmittance with respect to light is stacked on a substrate 1 such as glass or the like.

The thin film is preferably one material selected from the group consisting of Cr, Cr alloys, CrOx, SiC, Ti, Ti alloys, Al, Al alloys, and combinations thereof.

Then, a hole injection electrode 3 such as ITO is formed on the thin film 2 having low light reflectance. As the hole injection electrode, it is preferable to use one type of transparent electrode selected from the group consisting of ITO, In ₂ O ₃ / SnO ₂ , SnO ₂ / Sb, and ZnO / Al.

An electrical insulating layer 3 for arranging the pixel portion is formed on the hole injection electrode.

An insulating partition 5 for electrical insulation of the electron injection electrode is formed on the electrical insulating film for arranging the pixel portion.

The electrical insulating film 3 or the insulating partition 4 is preferably made of a transparent material.

As the electrical insulating layer 3, it is preferable to use one material selected from the group consisting of SiOx, SiNx, SiC, Si, a polymer-based photoresist, and polyimide.

After forming the insulating partition 4, an organic layer 6 for emitting light is formed on the layers.

An electron injection electrode 7 is formed on the organic layer. The electron injection electrode 7 preferably uses a metal or alloy having a small work function such as Mg, Mg-Ag alloy, Al-Li alloy, Sr-Mg alloy, and the like.

After forming the electron injection electrode 7, a protective film 8 is formed.

2 is a view showing a laminated structure of a panel for an organic light emitting display device according to another embodiment of the present invention.

Referring to FIG. 2, in comparison with the panel structure according to the exemplary embodiment of the present invention described above, the thin film 2 and the hole injection electrode 3 made of a material having a low light reflectance are disposed interchangeably.

It is preferable to use the same material as that of Example 1 of the present invention as a material that can be used for other laminated films.

In addition, referring to FIG. 3, which is another embodiment of the present invention, the organic electroluminescent device display panel disclosed in FIG. 3 has a light reflectance as compared to the organic electroluminescent device display panel disclosed in FIG. 1. This low thin film 2 is disposed on the insulating film 4 for arranging the pixel portion, and the electrical insulating film 4 is laminated on the thin film with low light reflectance. The insulating barrier rib 5, the light emitting organic film 6, the electron injection electrode 7, and the protective film 8 are sequentially stacked on the stacked electrical insulating film 4.

In the above embodiment, it is preferable to use the same material as the other embodiments as the material that can be used for the film layer to be laminated.

As described above, in the present invention, by introducing a thin film having a low light reflectance that serves as a black matrix to the panel for an organic EL device, the contrast ratio of the panel for an organic EL device can be improved.

Claims (6)

Substrate 1; A thin film 2 composed of a material having a low light reflectance on the substrate 1; A hole injection electrode 3 disposed on the thin film; An insulating film 4 for forming a pixel portion disposed on the hole injection electrode; An insulating partition wall 5 for electrically insulating an electron injection electrode on the insulating film; An organic film 6 for emitting light disposed on the insulating partition wall; An electron injection electrode 7 disposed on the organic layer; And A protective film 8 formed on the electron injection electrode Panel for an organic electroluminescent device display comprising a. The method of claim 1, The material having a low light reflectance and low transmittance is selected from the group consisting of Cr, Cr alloys, CrOx, SiC, Ti, Ti alloys, Al, Al alloys, and combinations thereof. Substrate 1; A hole injection electrode 3 disposed on the substrate 1; A thin film 2 made of a material having a low light reflectance disposed on the hole injection electrode 3; An electrical insulating film 4 disposed on the thin film 2; An insulating partition wall 5 for electrically insulating an electron injection electrode on the electrical insulating film 4; A light emitting organic layer 6 disposed on the insulating partition 5; An electron injection electrode 7 disposed on the light emitting organic layer 6; And The passivation layer 8 disposed on the electron injection electrode 7. Panel for an organic electroluminescent device display comprising a. The method of claim 3, wherein The material having a low light reflectance is selected from the group consisting of Cr, Cr alloys, CrOx, SiC, Ti, Ti alloys, Al, Al alloys and combinations thereof. Substrate 1; A hole injection electrode 3 disposed on the substrate; An electrical insulating film 4 disposed on the hole injection electrode 3; A thin film 5 made of a material having a low light reflectance disposed on the electrical insulating film 4; An electrical insulating film 5 disposed on the thin film; An insulating barrier 6 for electrically isolating the electron injection electrode 7 disposed on the insulating film 5; An organic film 6 for emitting light disposed on the insulating partition 6; An electron injection electrode 7 disposed on the organic layer 6; And A protective film 8 disposed on the electron injection electrode Panel for an organic electroluminescent device display comprising a. The method of claim 5, The material having a low light reflectance is an organic electroluminescent device display panel, which is one material selected from the group consisting of Cr, Cr alloys, CrOx, SiC, Ti, Ti alloys, Al, Al alloys, and combinations thereof.