KR100732429B1 - Organic light emitting device - Google Patents

Abstract

The present invention relates to an organic light emitting device capable of displaying a plurality of colors more clearly, and having an increased lifetime.

The organic light emitting device of the present invention includes a plurality of first transparent positive electrode layers arranged in a stripe shape on a first transparent substrate, a first organic light emitting layer formed on the plurality of first transparent positive electrode layers, and the plurality of first And a plurality of transparent negative electrode layers formed on the first organic light emitting layer so as to be orthogonal to the transparent positive electrode layer, and in the first organic light emitting layer formed at a portion where the plurality of first transparent positive electrode layers and the plurality of transparent negative electrode layers meet. A first organic light emitting diode panel in which a plurality of first pixels are defined; The plurality of second transparent positive electrode layers arranged in a stripe shape on a second transparent substrate, the second organic light emitting layer formed on the plurality of second transparent positive electrode layers, and the plurality of second transparent positive electrode layers to be orthogonal to each other; A plurality of second pixels is defined by the second organic light emitting layer including a plurality of negative electrode layers formed on a second organic light emitting layer, and formed at a portion where the plurality of second transparent positive electrode layers and the plurality of negative electrode layers meet. A second organic light emitting device panel; And a power applying unit selectively applying power to the first organic light emitting device panel or the second organic light emitting device panel, wherein the first organic light emitting device panel and the second organic light emitting device panel include: The rear surface of the first transparent substrate and the second transparent substrate are in contact with each other such that the first pixel and the plurality of second pixels corresponding thereto overlap.

Organic light emitting diode, pixel, first organic light emitting diode panel, second organic light emitting diode panel

Description

Organic light emitting element {ORGANIC LIGHT EMITTING DEVICE}

1 is a plan view showing the configuration of a general organic light emitting device,

2 is a view schematically showing a pixel configuration of a conventional organic light emitting device,

FIG. 3 is a plan view schematically illustrating respective structures of the first organic light emitting diode panel (FIG. 3A) and the second organic light emitting diode panel (FIG. 3B) included in the organic light emitting diode according to the exemplary embodiment.

FIG. 4 is a view schematically illustrating a configuration of an organic light emitting diode according to an exemplary embodiment of the present invention including the first organic light emitting diode panel and the second organic light emitting diode panel of FIG. 3.

   -Explanation of symbols for the main parts of the drawings-

100: first organic light emitting device panel 200: second organic light emitting device panel

110: first transparent substrate 210: second transparent substrate

120: first transparent positive electrode layer 220: second transparent positive electrode layer

130: first organic light emitting layer 230: second organic light emitting layer

140: transparent negative electrode layer 240: negative electrode layer

150: first pixel 250: second pixel

300: power supply unit

The present invention relates to an organic light emitting device capable of displaying a plurality of colors more clearly, and having an increased lifetime.

In general, an organic light emitting diode is one of the flat panel display devices, and is formed by inserting an organic thin film layer including an organic light emitting layer and the like between an anode layer and a cathode layer on a wafer. Achieve.

Such an organic light emitting device can be driven at a low voltage and has advantages such as thinness. In addition, it is possible to solve the drawbacks that have been conventionally pointed out as problems with LCDs such as narrow wide viewing angles and slow response speeds, and compared to other forms of displays, in particular, equal to or less than medium displays (e.g., "TFT LCD"). ") It is attracting attention as a next-generation flat panel display in that not only can it have higher image quality but also the manufacturing process is simplified.

Hereinafter, with reference to the accompanying drawings, a configuration and problems of the conventional organic light emitting device will be described.

1 is a plan view showing the configuration of a general organic light emitting device.

Referring to FIG. 1, in the conventional organic light emitting device, a plurality of positive electrode layers 12 arranged in a stripe shape are formed on a substrate 10, and the organic light emitting layer 14 is disposed on the plurality of positive electrode layers 12. An organic thin film layer is formed.

In addition, on the organic thin film layer including the organic light emitting layer 14, a plurality of negative electrode layers 16 arranged to be orthogonal to the plurality of positive electrode layers 12 are formed.

That is, in such a conventional organic light emitting element, the plurality of pixels of the organic light emitting element is formed by the organic light emitting layer 14 formed at a portion where the plurality of positive electrode layers 12 and the plurality of negative electrode layers 16 meet each other. 15) is defined.

In such an organic light emitting device, holes in the positive electrode layer 12 and electrons in the negative electrode layer 16 move to meet each other in the organic light emitting layer 14, and these holes and electrons are electron-containing in the organic light emitting layer 14. By emitting light energy in the process of forming a hole pair and falling to the ground state, each pixel 15 of the organic light emitting device can emit light.

However, in order to enable the organic light emitting diode to realize full color, each of the pixels 15 of the organic light emitting diode may emit three subpixels emitting red, green, and blue colors, respectively. In some cases, when it is necessary to implement the white (W), so that it is not necessary to drive all three sub-pixels emitting the red (R), green (G) and blue (B), respectively, Sub-pixels emitting white (W) together with three sub-pixels emitting red (R), green (G), and blue (B), respectively.

However, when each of the pixels 15 of the organic light emitting element includes only three subpixels emitting red (R), green (G), and blue (B), respectively, all three subpixels are driven. Therefore, since white (W) must be implemented, power consumption of the organic light emitting device is greatly increased. In addition, since only one subpixel which emits red (R), green (G), and blue (B), respectively, there is a limit in realizing each of these colors more clearly.

In addition, each of the pixels 15 of the organic light emitting diode includes a subpixel emitting white (W) together with three subpixels emitting red (R), green (G), and blue (B), respectively. Even in this case, although only a sub-pixel that emits the white (W) may be driven to implement white (W), the power consumption may be partially reduced. However, as illustrated in FIG. 2, each pixel 15 is included. Since the formation region of each subpixel is very narrow, the electrical stress applied to each pixel 15 of the organic light emitting element is greatly increased, which is a factor that greatly shortens the lifespan of the organic light emitting element. Can be.

Furthermore, as the formation regions of the subpixels 15 emitting the red (R), the green (G), the blue (B), and the white (W), respectively, and the spacing therebetween become very narrow, in particular, The problem of image sticking, in which an image is smeared, occurs in a display device such as a monitor that is shown.

The present invention provides an organic light emitting device that can achieve at least two or more of the problems of reduced power consumption, improved clarity of each color, increased life and prevent image sticking phenomenon in order to solve the problems of the prior art described above. It is to.

The present invention for achieving the above object is a plurality of first transparent positive electrode layer arranged in a stripe shape on the first transparent substrate, a first organic light emitting layer formed on the plurality of first transparent positive electrode layer, A plurality of transparent negative electrode layers formed on the first organic light emitting layer so as to be orthogonal to a plurality of first transparent positive electrode layers, wherein the first and second transparent positive electrode layers and the plurality of transparent negative electrode layers are formed at portions where the transparent negative electrode layers meet; A first organic light emitting device panel in which a plurality of first pixels are defined by one organic light emitting layer; The plurality of second transparent positive electrode layers arranged in a stripe shape on a second transparent substrate, the second organic light emitting layer formed on the plurality of second transparent positive electrode layers, and the plurality of second transparent positive electrode layers to be orthogonal to each other; A plurality of second pixels is defined by the second organic light emitting layer including a plurality of negative electrode layers formed on a second organic light emitting layer, and formed at a portion where the plurality of second transparent positive electrode layers and the plurality of negative electrode layers meet. A second organic light emitting device panel; And a power applying unit selectively applying power to the first organic light emitting device panel or the second organic light emitting device panel, wherein the first organic light emitting device panel and the second organic light emitting device panel include: Provided is an organic light emitting device in which a rear surface of the first transparent substrate and the second transparent substrate are in contact with each other so that a first pixel of and a plurality of second pixels corresponding thereto overlap.

In the organic light emitting diode according to the present invention, each of the first pixel and the second pixel may include three sub-pixels emitting red (R), green (G), and blue (B), respectively. .

In addition, as another embodiment of the organic light emitting device according to the present invention, each of the first pixel includes three sub-pixels for emitting red (R), green (G) and blue (B), respectively, Each of the two pixels may include one subpixel that emits white (W).

In the organic light emitting diode according to the present invention, the plurality of negative electrode layers of the second organic light emitting diode panel may be a plurality of opaque negative electrode layers made of an opaque metal.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings. In addition, this embodiment is not intended to limit the scope of the present invention, but is presented by way of example only.

FIG. 3 is a plan view schematically illustrating respective structures of the first organic light emitting diode panel (FIG. 3A) and the second organic light emitting diode panel (FIG. 3B) included in the organic light emitting diode according to the exemplary embodiment. FIG. 4 is a view schematically illustrating a configuration of an organic light emitting diode according to an exemplary embodiment of the present invention including the first organic light emitting diode panel and the second organic light emitting diode panel of FIG. 3. In FIG. 4, the structures of the first organic light emitting diode panel and the second organic light emitting diode panel are omitted.

Referring to FIGS. 3 and 4, the organic light emitting diode according to the present embodiment first includes a first organic light emitting diode panel 100 and a second organic light emitting diode panel 200 having a predetermined configuration. 3, the configuration of each of the first organic light emitting diode panel 100 and the second organic light emitting diode panel 200 will be described in detail as follows.

First, referring to FIG. 3A, in the first organic light emitting diode panel 100, a plurality of first transparent positive electrode layers 120 arranged in a stripe shape are formed on a first transparent substrate 110 made of glass, plastic, or the like. It is. The plurality of first transparent positive electrode layers 120 is made of a transparent conductive material such as ITO or IZO.

The organic thin film layer including the first organic emission layer 130 is formed on the plurality of first transparent positive electrode layers 120. The first organic light emitting layer 130 may be formed according to a general configuration of the organic light emitting layer that is obvious to those skilled in the art, using a conventional material conventionally used to form the organic light emitting layer of the organic light emitting device. In addition to the first organic emission layer 130, the organic thin film layer may further include an electron transport layer, an electron injection layer, a hole transport layer, a hole injection layer, and the like.

In addition, a plurality of transparent negative electrode layers 140 orthogonal to the plurality of first transparent positive electrode layers 120 are formed on the organic thin film layer including the first organic light emitting layer 130. The plurality of transparent negative electrode layers 140 may be formed of a thin metal material such as calcium (Ca) or nickel (Ni), according to a conventional configuration of a double-sided light emitting organic light emitting diode.

In the first organic light emitting device panel 100, the plurality of first transparent positive electrode layers 120 and the plurality of transparent negative electrode layers 140 meet each other according to a typical configuration of the organic light emitting device. The plurality of first pixels 150 is defined by the first organic emission layer 130.

That is, in the first organic light emitting device panel 100, holes in the first transparent positive electrode layer 120 and electrons in the transparent negative electrode layer 140 move to meet each other in the first organic light emitting layer 130. In addition, the holes and electrons emit light energy in the process of forming an electron-hole pair in the first organic emission layer 130 and falling to the ground state, thereby allowing each first pixel 150 to emit light.

In addition, the first organic light emitting device panel 100 includes the transparent substrate 110, the first transparent positive electrode layer 120, and the transparent negative electrode layer 140, all formed of a light-transmitting material, thereby forming a transparent substrate 110. A double-sided light emitting organic light emitting diode capable of emitting light to each pixel 150 in both directions on the rear side thereof has a configuration. As will be described later, the first organic light emitting diode panel 100 may be configured. Light generated from the second organic light emitting diode panel 200 which is in contact with the rear surface may also be emitted to the front side of the first organic light emitting diode panel 100 through the first transparent substrate 110.

Next, referring to FIG. 3B, a configuration of the second organic light emitting device panel 200 will be described.

The second organic light emitting device panel 200 is identical to the first organic light emitting device panel 100 except that the second organic light emitting device panel 200 may have both a single-sided (backside) light emitting method and a double-sided light emitting device. Has a range of configurations.

That is, in the second organic light emitting device panel 200, a plurality of second transparent positive electrode layers 220 arranged in a stripe shape are formed on the second transparent substrate 210 made of glass, plastic, or the like. The second transparent positive electrode layer 220 is also made of a transparent conductive material such as ITO or IZO.

The organic thin film layer including the second organic emission layer 230 is formed on the plurality of second transparent positive electrode layers 220. The configuration of the second organic light emitting layer 230 and the organic thin film layer including the same is similar to the first organic light emitting layer 130 and the organic thin film layer including the same.

In addition, a plurality of negative electrode layers 240 arranged orthogonally to the plurality of second transparent positive electrode layers 220 is formed on the organic thin film layer including the second organic light emitting layer 230. However, in the second organic light emitting device panel 200, the plurality of negative electrode layers 240 may be a plurality of transparent negative electrode layers made of a light transmissive material, or may be a plurality of opaque negative electrode layers made of a light blocking material.

When the plurality of negative electrode layers 240 is a transparent negative electrode layer, the second organic light emitting device panel 200 takes the configuration of a double-sided light emission type organic light emitting device, and conversely, a second transparent substrate when the negative electrode layer is an opaque negative electrode layer. A configuration of a cross-sectional (back) light emission type organic light emitting device that emits light toward the rear side of 210 is taken.

However, as will be described later, the light generated by the second organic light emitting diode panel 200 is the first transparent substrate of the first organic light emitting diode panel 100 which is in contact with the rear surface of the second transparent substrate 210. Since it is seen from the front side of the first organic light emitting material panel 100 through 110, the plurality of negative electrode layers 240 is preferably a plurality of opaque negative electrode layers made of a light blocking material, that is, an opaque metal. . As a result, light loss generated in the second organic light emitting device panel 200 may be further reduced.

In the second organic light emitting device panel 200, the plurality of second transparent positive electrode layers 220 and the plurality of negative electrode layers 240 meet each other according to a conventional configuration of the organic light emitting device. The plurality of second pixels 250 is defined by the second organic emission layer 230.

In the second organic light emitting device panel 200, holes in the second transparent positive electrode layer 220 and electrons in the negative electrode layer 240 move to meet each other in the second organic light emitting layer 230. As the holes and electrons form an electron-hole pair in the second organic emission layer 230 and emit light energy in the process of falling to the ground state, each second pixel 250 may emit light.

Next, referring to FIG. 4, the configuration of the organic light emitting diode according to the present exemplary embodiment including the first organic light emitting diode panel 100 and the second organic light emitting diode panel 200 will be described. However, in FIG. 4, since respective configurations of the first organic light emitting diode panel 100 and the second organic light emitting diode panel 200 are omitted, the respective configurations may be referred to FIG. 3.

As shown in FIG. 4, in the organic light emitting diode according to the present exemplary embodiment, the first organic light emitting diode panel 100 and the second organic light emitting diode panel 200 may include the plurality of first pixels 150 and The rear surfaces of the first transparent substrate 110 and the second transparent substrate 210 are in contact with each other such that the plurality of second pixels 250 overlap with each other at the same position.

That is, according to this configuration, the light generated from the first organic light emitting device panel 100 emits light toward the front side of the first transparent substrate 110, while the light generated from the second organic light emitting device panel 110 is also generated. The second transparent substrate 210 and the first transparent substrate 110 of the first organic light emitting diode panel 100 may emit light toward the front side of the first transparent substrate 110 (see arrows in FIG. 4).

The organic light emitting device according to the present embodiment selectively supplies power to the first organic light emitting device panel 100 and the second organic light emitting device panel 200 which are in contact with each other, and alternately drives them. The applicator 300 is included.

In the structure of the organic light emitting diode according to the present embodiment as described above, each of the plurality of first pixels 150 and the plurality of second pixels 250 is red (R), green (G), and blue. Each of the plurality of first pixels 150 emits red (R), green (G), and blue (B). Three subpixels may be included, and each of the plurality of second pixels 250 may include one subpixel that emits white (W).

First, each of the first pixel 150 and the second pixel 250 includes three sub-pixels emitting red (R), green (G), and blue (B), respectively. According to the embodiment, the first organic light emitting device panel 100 drives three sub-pixels emitting red, green, and blue light, respectively, to realize full color and at the same time, the second organic light. The first organic light is driven by driving three sub-pixels that emit red, green, and blue light, respectively, included in each of the second pixels 250 of the light emitting device panel 200. Since the respective colors implemented in the light emitting device panel 100 can be further emphasized, each color can be more clearly implemented in the organic light emitting device.

In addition, by selectively applying power to the first organic light emitting device panel 100 and the second organic light emitting device panel 200 to drive them alternately to implement a full color, the first organic light emitting device panel The driving time of the 100 and the second organic light emitting diode panel 200 may be reduced, and more particularly, the driving time of each of the plurality of first pixels 150 and the plurality of second pixels 250 may be reduced. Therefore, the lifetime of the entire organic light emitting device can be increased.

Meanwhile, each of the plurality of first pixels 150 includes three subpixels that emit red, green, and blue light, respectively, and the plurality of second pixels 250. According to another embodiment of the present embodiment, each of which includes one subpixel emitting white W, the second pixel 250 may be applied to the plurality of second pixels 250 when the organic light emitting device needs to implement white W. Since only the included white (W) subpixel can be driven and implemented, the lifespan improvement effect of the organic light emitting device can be achieved as in the related art.

At the same time, the formation area of each subpixel can be secured more broadly than the organic light emitting element including the red (R), green (G), blue (B) and white (W) subpixels. By reducing the electrical stress applied to each of the plurality of first pixels 150 and the plurality of second pixels 250, the lifespan of the organic light emitting device can be further improved, and the formation area of each subpixel and the gap therebetween. In addition, since it is wider, it is also possible to minimize the problem of the prior art, in particular, an image sticking phenomenon in which an image is smeared in a display device such as a monitor showing a fixed image.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

As described above, according to the present invention, it is possible to provide a novel organic light emitting device capable of achieving at least two or more of the effects of reducing power consumption, improving the vividness of each color, increasing the lifetime, and preventing image sticking. Will be.

Claims (4)

A plurality of first transparent positive electrode layers arranged in a stripe shape on a first transparent substrate, a first organic light emitting layer formed on the plurality of first transparent positive electrode layers, and orthogonal to the plurality of first transparent positive electrode layers The first organic light emitting layer includes a plurality of transparent negative electrode layers formed on the first organic light emitting layer, and the plurality of first pixels are formed by the first organic light emitting layer formed at a portion where the plurality of first transparent positive electrode layers and the plurality of transparent negative electrode layers meet. A first organic light emitting device panel being defined; The plurality of second transparent positive electrode layers arranged in a stripe shape on a second transparent substrate, the second organic light emitting layer formed on the plurality of second transparent positive electrode layers, and the plurality of second transparent positive electrode layers to be orthogonal to each other; A plurality of second pixels is defined by the second organic light emitting layer including a plurality of negative electrode layers formed on a second organic light emitting layer, and formed at a portion where the plurality of second transparent positive electrode layers and the plurality of negative electrode layers meet. A second organic light emitting device panel; And And a power applying unit selectively applying power to the first organic light emitting device panel or the second organic light emitting device panel. The first organic light emitting device panel and the second organic light emitting device panel may include the first transparent substrate and the second transparent substrate such that the plurality of first pixels and the plurality of second pixels corresponding thereto overlap at the same position. An organic light emitting device according to claim 1, wherein each of the first pixel and the second pixel includes three subpixels emitting red, green, and blue light, respectively. delete A plurality of first transparent positive electrode layers arranged in a stripe shape on a first transparent substrate, a first organic light emitting layer formed on the plurality of first transparent positive electrode layers, and orthogonal to the plurality of first transparent positive electrode layers The first organic light emitting layer includes a plurality of transparent negative electrode layers formed on the first organic light emitting layer, and the plurality of first pixels are formed by the first organic light emitting layer formed at a portion where the plurality of first transparent positive electrode layers and the plurality of transparent negative electrode layers meet. A first organic light emitting device panel being defined; The plurality of second transparent positive electrode layers arranged in a stripe shape on a second transparent substrate, the second organic light emitting layer formed on the plurality of second transparent positive electrode layers, and the plurality of second transparent positive electrode layers to be orthogonal to each other; A plurality of second pixels is defined by the second organic light emitting layer including a plurality of negative electrode layers formed on a second organic light emitting layer, and formed at a portion where the plurality of second transparent positive electrode layers and the plurality of negative electrode layers meet. A second organic light emitting device panel; And And a power applying unit selectively applying power to the first organic light emitting device panel or the second organic light emitting device panel. The first organic light emitting device panel and the second organic light emitting device panel may include the first transparent substrate and the second transparent substrate such that the plurality of first pixels and the plurality of second pixels corresponding thereto overlap at the same position. Are in contact with each other, and each of the first pixels includes three sub-pixels emitting red (R), green (G), and blue (B), respectively, and each of the second pixels is white (W). An organic light-emitting device comprising one subpixel emitting light. The organic light emitting device according to claim 1 or 3, wherein the plurality of negative electrode layers of the second organic light emitting device panel are a plurality of opaque negative electrode layers made of an opaque metal.

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