JP2010272327A - Organic el panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an organic EL panel for reducing light regarded as a demerit leaked from sideways of a support substrate, and of improving salability as a light-emitting display by effectively utilizing this light especially concerning the organic EL panel of a bottom emission. <P>SOLUTION: The organic EL panel includes the translucent support substrate 1, and a laminate in which a translucent first electrode 2, a functional layer 3 having at least an organic light-emitting layer, and a second electrode 4 are laminated and formed on the support substrate 1, and light L1 is emitted from the support substrate 1 side. An inclined face to reflect light L2 to pass through the support substrate 1 interior toward an emitting face is installed more outside than the laminate of the support substrate 1. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an organic EL (electroluminescence) panel.

  2. Description of the Related Art Conventionally, an organic EL panel including an organic EL element that is a self-luminous element formed of an organic material has, for example, a function of having a first electrode made of indium tin oxide (ITO) serving as an anode and at least an organic light emitting layer. A layer, a non-translucent second electrode made of aluminum (Al) or the like serving as a cathode, and a layer sequentially laminated on a translucent support substrate are known (for example, see Patent Document 1). Such an organic EL element emits light by injecting holes from the first electrode and injecting electrons from the second electrode, and the holes and electrons recombine in the light emitting layer. Since the organic EL panel is excellent in visibility and responsiveness in a low temperature environment, it is desired that the organic EL panel be applied to a display device such as a vehicle instrument that requires instantaneous interpretation of display.

  The organic EL panel includes a bottom emission type in which light is extracted from the support substrate side and a top emission type in which light is extracted from the organic EL element side. In the bottom emission type organic EL panel, light emitted from the organic EL element is emitted to the outside through the support substrate.

JP 59-194393 A JP 2004-146121 A

  However, in such an organic EL panel, total reflection occurs at the interface between the support substrate and air having different refractive indexes, and it is not possible to extract all the light from the organic EL element to the outside. Some of the totally reflected light is not effectively used because it leaks from the side surface of the support substrate through the support substrate, and the light leaking from the side surface is regarded as a disadvantage. On the other hand, Patent Document 2 proposes a method in which a light reflecting portion is provided on the surface or inside of the support substrate to return light leaking to the side to the exit surface. However, this method is effective when an organic EL panel is used as illumination, but when used as a light-emitting display, there is no distinction between the light indicating the display image and the light reflected by the reflection unit. As a result, there is a problem in that the display quality deteriorates.

  The present invention has been made in view of this problem. In particular, in a bottom emission type organic EL panel, the light leaking from the side of the support substrate, which is regarded as a disadvantage, is reduced, and the light is effectively utilized. An object of the present invention is to provide an organic EL panel capable of improving the merchantability as a light emitting display.

In order to solve the above-mentioned problems, the present invention includes a translucent support substrate, a translucent first electrode, a functional layer having at least an organic light emitting layer, and a second electrode formed on the support substrate. And an organic EL panel formed by emitting light from the support substrate side,
An inclined surface that reflects light passing through the inside of the support substrate toward the exit surface is provided outside the laminated body of the support substrate.

  Further, the inclined surface is a mirror surface.

  Further, the light-shielding layer is formed on the support substrate so as to partition a portion where light is directly emitted from the laminate and a portion where light is reflected by the inclined surface and emitted.

  Further, a color conversion member for converting the color of light is provided on the inclined surface.

  The present invention relates to a bottom emission type organic EL panel, in particular, to reduce light leaking from the side of the support substrate, which is regarded as a disadvantage, and to improve the merchantability as a light emitting display by effectively using this light. Is possible.

Sectional drawing which shows the organic electroluminescent panel which is embodiment of this invention. The front view which shows an organic electroluminescent panel same as the above.

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

  The organic EL panel includes a support substrate 1, a first electrode 2, a functional layer 3, a second electrode 4, a sealing substrate 5, and a hygroscopic member 6.

  The support substrate 1 has a rectangular shape and is formed of a translucent glass substrate.

  The first electrode 2 serves as an anode for injecting holes into the functional layer 3, and is made of indium tin oxide (ITO), indium zinc oxide (IZO), zinc oxide (ZnO) or the like on the support substrate 1. The translucent conductive material is formed in a layer shape by means such as sputtering, and is patterned into a predetermined shape by means such as photoetching.

  The functional layer 3 only needs to have at least an organic light emitting layer that emits light by recombination of holes and electrons. In the embodiment of the present invention, a hole injection layer, a hole transport layer, an organic light emitting layer, and The electron transport layer is formed by sequentially laminating.

  The second electrode 4 serves as a cathode for injecting electrons into the functional layer 3, and is a reflective electrode formed by layering a low-resistance conductive material such as Al on the functional layer 3 by means such as vapor deposition. It is.

  As described above, the stacked body (organic EL element) is provided by sequentially stacking the first electrode 2, the functional layer 3, and the second electrode 4 on the support substrate 1.

  The sealing substrate 5 is made of a glass material, and is formed in a concave shape in the present embodiment. The sealing substrate 5 has a moisture absorbing member 6 applied to the surface 5a facing the organic EL element. Further, the sealing substrate 5 has a peripheral portion 5b bonded and fixed to the support substrate 1 via an ultraviolet curable adhesive 7 to constitute a storage space for storing the organic EL element in an airtight manner.

  The moisture absorbing member 6 is disposed on the surface 5a of the sealing substrate 5 disposed on the support substrate 1 facing the organic EL element, and adsorbs moisture contained in the storage space and the laminate. is there. As the hygroscopic member 6, for example, an adsorbent that physically or chemically adsorbs moisture such as activated alumina, molecular sieves, calcium oxide, and barium oxide, a heat-resistant temperature of 150 ° C. or higher, and a moisture content of 0.5% or less. A mixture of resin fine particles made of silicone rubber and spherical particles having an average particle diameter of about 5 μm and an inert liquid made of fluorine-based oil is used. The viscosity of the adsorbent does not flow (for example, 50 , 000 cp) is preferred. The hygroscopic member 6 is formed thinly and uniformly so that the hygroscopic member 6 applied to the facing surface 5a when the sealing substrate 5 is disposed on the support substrate 1 does not come into contact with the laminate.

  The organic EL panel is constituted by the above-described parts. The organic EL panel emits light L <b> 1 emitted from the laminate from the emission surface 1 a of the support substrate 1.

  In addition, an inclined surface 1 b is integrally formed on the outer side of the laminated body of the support substrate 1. In the present embodiment, the inclined surface 1b is formed on each of the four side surfaces of the support substrate 1 so as to surround the stacked body. The inclined surface 1b is formed by means such as etching or cutting. Here, the inclined surface 1a is directed toward the output surface 1a of the support substrate 1 again by the light L2 emitted from the laminate and reflected at the interface between the output surface 1a of the support substrate 1 and the air layer and passing through the support substrate 1. Are reflected. The inclined surface 1b is preferably a mirror surface by forming a metal material such as aluminum (Al) into a thin film shape. The light L2 reflected by the inclined surface 1b is emitted from the support substrate 1. In the present embodiment, as shown in FIG. 2, the light L <b> 2 is emitted from the annular second light emitting display portion B surrounding the first light emitting display portion A from which the light L <b> 1 is directly emitted from the support substrate 1. The light emitting display portion B by the light L2 can be mainly used for decoration. A light shielding layer 8 that partitions the first light emitting display portion A and the second light emitting display portion B is formed on the emission surface 1 a of the support substrate 1. The light shielding layer 8 is made of a light shielding resin material or the like. It is formed at a location excluding the first and second light emitting display portions A and B on the emission surface 1a.

  With this configuration, by forming the inclined surface 1b on the support substrate 1, the light L2 that has conventionally only leaked from the side of the support substrate 1 can be emitted from the emission surface 1a to reduce the light leaking from the side. In addition, by using this light L2 as the second light emitting display portion B mainly used for decoration, it is possible to effectively utilize the light emitted from the laminated body to improve the merchantability as a light emitting display. it can.

  The organic EL panel is provided with a color conversion member such as a colored filter or ink at a position where the light L2 on the inclined surface 1b or the emission surface 1a of the support substrate 1 is emitted, and the second light emitting display portion B by the light L2. May be configured to be different from the light emission color of the first light emitting display portion A by the light L1, and further improvement in merchantability as a light emitting display can be expected.

  The present invention mainly relates to an organic EL panel, and is particularly suitable for a bottom emission type organic EL panel.

DESCRIPTION OF SYMBOLS 1 Support substrate 1a Inclined surface 2 First electrode 3 Functional layer 4 Second electrode 5 Sealing substrate 6 Hygroscopic member 7 Adhesive 8 Light shielding layer

Claims (4)

A translucent support substrate; and a laminate formed by laminating a translucent first electrode, a functional layer having at least an organic light emitting layer, and a second electrode on the support substrate, and the support substrate An organic EL panel that emits light from the side,
An organic EL panel comprising an inclined surface that reflects light passing through the support substrate toward an emission surface outside the laminated body of the support substrate. The organic EL panel according to claim 1, wherein the inclined surface is a mirror surface. 2. The organic material according to claim 1, wherein a light shielding layer is formed on the support substrate to partition a portion where light is directly emitted from the laminate and a portion where light reflected from the inclined surface is emitted. EL panel. 2. The organic EL according to claim 1, wherein a color conversion member for converting the color of light is provided at a location where light reflected by the inclined surface or the inclined surface of the support substrate is emitted. panel.

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