TW200915920A - Organic light emitting panel and compound organic light emitting device - Google Patents

Abstract

An organic light emitting panel includes a substrate and at least one compound organic light emitting device. The compound organic light emitting device is disposed on the substrate, and includes a first electrode layer, a first organic light emitting layer, and a second electrode layer. The first electrode layer is disposed on the substrate and includes a first electrode part and a second electrode part, which are arranged side by side. The first organic light emitting layer is disposed on the first electrode layer. The second electrode layer is disposed on the first organic light emitting layer. A compound organic light emitting device is also disclosed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display panel, in particular, to an organic light-emitting panel and a composite organic light-emitting element. [Prior Art] Compared with other display panels, the organic light-emitting panel is gradually becoming the next generation because of its self-illumination, brightness, wide viewing angle, low power consumption, high response speed, and full color. The mainstream of flat display panels. Referring to FIG. 1 , which is a conventional organic light-emitting panel, the organic light-emitting panel 1 has a substrate U and a plurality of organic light-emitting elements 12 disposed on the substrate u. The organic light-emitting element 12 has a transparent anode layer 121, an organic light-emitting layer 122, and a metal cathode layer 123, which are sequentially disposed on the substrate 11. When a current passes between the transparent anode layer 121 and the metal cathode layer 123, the current causes the electrons and the holes to recombine in the organic light-emitting layer 122 to generate excitons, so that the organic light-emitting layer 122 according to its material characteristics , _ and emit light of different colors. Further, in order to define a plurality of sub-pixels on the organic light-emitting panel, the conventional organic light-emitting panel 1 further has a halogen barrier layer 13 which is provided on the substrate 11 and the transparent anode layer 121. Next, please refer to FIG. 2 , which is a partial view of a portion of the halogen of the organic light-emitting panel 1 of FIG. 1 , which can be distinguished as a red secondary halogen R according to different light emitted by the organic light-emitting layers. , green sub-albumin G or monitoring color sputum B. Adjacent to the red sub-albumin r, the green sub-salin G and the 5 200915920 blue sub-halogen B-form can form a single pixel P (pixel). In the prior art, the arrangement of the secondary halogens R, G, and B has many different forms. As shown in Fig. 2, nine sub-halogens R, G, and B are arranged in a strip form to form three halogen P (as indicated by a broken line). Alternatively, as shown in FIG. 3, the secondary halogens R, G, and B are arranged in a triangle (delta or triangle) to form six halogens P (as indicated by a broken line). The conventional technique is to fabricate the organic light-emitting layer 122 by performing a vapor deposition process in different vacuum chambers using different shadow masks. However, due to the vapor deposition process error, the mask alignment error, and the like, the minimum distance D between the sub-halogens R, G, and B can be maintained only between 20 μm and 40 μm. However, due to the innate limitations of the process, the secondary halogens R, G, and Β cannot be arranged in a more dense manner, and the organic light-emitting panel 1 cannot have a higher resolution. Therefore, how to provide a higher resolution organic light-emitting panel is one of the current important topics. SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide an organic light-emitting panel and a composite organic light-emitting element, which have the advantages of high resolution. For the above purpose, the organic light-emitting panel according to the present invention comprises a substrate and at least one composite organic light-emitting element. The composite organic light emitting device is disposed on the substrate and includes a first electrode layer, a first organic light emitting layer and a second electrode layer, wherein the first electrode layer is disposed on the substrate, and the first layer of the 200915920 electrode layer has a first An electrode portion and a second electrode portion are disposed, the first electrode portion is disposed adjacent to the second electrode portion, the first organic light emitting layer is disposed on the first electrode layer, and the second electrode layer is disposed on the first organic light emitting layer . To achieve the above object, a composite organic light-emitting device according to the present invention is provided on a substrate, and the composite organic light-emitting device comprises a first electrode layer, an organic light-emitting layer and a second electrode layer. The first electrode layer is disposed on the substrate, and the first electrode layer has a first electrode portion and a second electrode portion, and the first electrode portion and the second electrode portion are disposed in parallel. The organic light emitting layer is disposed on the first electrode layer. The second electrode layer is disposed on the first organic light emitting layer. To achieve the above object, an organic light-emitting panel according to the present invention comprises a substrate, a plurality of first organic light-emitting elements, a plurality of second organic light-emitting elements, and a plurality of third organic light-emitting elements. The first organic light emitting elements are disposed on the substrate and produce a first primary color. The second organic light emitting elements are disposed on the substrate and produce a second primary color. The third organic light emitting elements are disposed on the substrate and produce a third primary color. The organic light-emitting elements are arranged in a matrix, and each column includes at least nine organic light-emitting elements, which are sequentially a first organic light-emitting element, a second organic light-emitting element, a third organic light-emitting element, and a third organic light-emitting element. An organic light emitting element, a second organic light emitting element, a second organic light emitting element, a third organic light emitting element, and a first organic light emitting element. To achieve the above object, an organic light-emitting panel according to the present invention comprises a substrate, a plurality of first organic light-emitting elements, a plurality of second organic light-emitting elements, and a plurality of third organic light-emitting elements. The first organic light emitting elements are disposed on the substrate and produce a first primary color. The second organic light emitting elements 200915920 are disposed on the substrate and generate a second primary color. The third organic light emitting elements are disposed on the substrate and produce a third primary color. Wherein, the organic light emitting elements are arranged in a matrix, and the first column comprises at least six organic light emitting elements, which are sequentially the first organic light emitting element, the first organic light emitting element, the second organic light emitting element, and the second organic light emitting element. a third organic light emitting element and a third organic light emitting element; the second column includes at least six organic light emitting elements and is disposed corresponding to the first column, and sequentially is the third organic light emitting element, the third organic light emitting element, and the first organic light emitting element a first organic light emitting element, a second organic light emitting element, and a second organic light emitting element. According to the above, in the organic light-emitting panel and the composite organic light-emitting device of the present invention, the first electrode portion and the second electrode portion are disposed on the first electrode of the composite organic light-emitting device, so that the composite organic light-emitting device in the organic light-emitting panel corresponds to The first halogen element and the second halogen element are formed in the first electrode portion and the second electrode portion, respectively, and therefore, the organic light-emitting panel of the present invention can form a large number of secondary halogens. Moreover, the organic light-emitting panel and the composite organic light-emitting element of the present invention can form a plurality of elements by the different arrangement of the sub-tenucins, thereby obtaining a better resolution. Of course, the organic light-emitting panel and the composite organic light-emitting device of the present invention can also have an organic light-emitting element of the same structure as the conventional structure, and the composite organic light-emitting element and the organic light-emitting element can be combined and applied in different ways to meet the practical requirements. [Embodiment] Hereinafter, an organic light-emitting panel according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings, wherein the same elements are denoted by the same reference numerals. 200915920 First Embodiment Referring to FIG. 4, an organic light-emitting panel 2 according to a first embodiment of the present invention includes a substrate 21 and at least one composite organic light-emitting element 22. In the present embodiment, a plurality of composite organic light-emitting elements 22 are taken as an example for illustration. The substrate 21 is, for example, a rigid substrate, a flexible substrate, a glass substrate or a plastic substrate, and can be selected differently according to different needs. The composite organic light-emitting elements 22 are respectively disposed on the substrate 21, and each of the composite organic light-emitting elements 22 includes a first electrode layer 221, a first organic light-emitting layer 222, and a second electrode layer 223, respectively. The first electrode layer 221 is disposed on the substrate 21 and has a first electrode portion 221a and a second electrode portion 22ib. In addition, in the present embodiment, the first electrode layer 221 is used as a conductive transparent anode layer, and is a metal oxide electrode layer, and the material of the metal oxide electrode layer is selected from indium tin oxide (Indium Tin Oxide, ITO), indium oxide (Indium

Zinc Oxide, IZO) or Aiuminuin Zinc Oxide (AZO) and combinations thereof, however, depending on the requirements, the material of the first electrode layer 221 can be made of other different options. The first electrode layer 221 is formed by exposing and developing the first electrode portion 221a and the second electrode portion 221b onto the substrate 21 by a mask (not shown). Since the exposure lithography process is employed in the present embodiment, the pitch d2 between the first electrode portion 221a and the second electrode portion 221b can be made smaller than the error using the vapor deposition process, and the value is about 14 μm. The first organic light-emitting layer 222 is disposed on the first electrode layer 221, and the first organic light-emitting layer 222 further includes a hole-transporting layer, a light-emitting layer, and an electron-transporting layer (not shown). Of course, there may be different designs depending on different requirements, but the focus of the present invention will not be described in detail herein. The first organic light-emitting layer 222 is deposited on the first electrode layer 221 by using a mask (not shown), and the composite organic light-emitting element 22 is formed by the evaporation process. The pitch dl between the first organic light-emitting layers 2M is about 30 μm. The second electrode layer 223 is disposed on the first organic light-emitting layer 222. In the embodiment, the second electrode layer 223 is used as a cathode layer, and the material thereof is selected from the group consisting of Ming, Office, Zhen, Indium, Tin, and Short. A group of silver, gold, and alloys containing magnesium and combinations thereof. However, depending on the requirements, the material of the second electrode layer 223 may be other different options. The second electrode layer 223 may be electrically connected to the first electrode portion 221a or the second electrode portion 221b, respectively. In addition, the organic light-emitting panel 2 of the present embodiment further has a halogen defining layer 23 and a barrier layer 24. The halogen defining layer 23 is disposed on the substrate 21 to define regions of the respective composite organic light emitting elements 22. The barrier layer 24 is further disposed on the halogen defining layer 23, whereby the light emitted by each composite organic light emitting element 22 is separated by the barrier layer 24, which is less likely to affect each other and reduces the light quality of each composite organic light emitting element 22. . Next, please refer to Fig. 5, which is a top view showing a part of the arrangement of the elements of the organic light-emitting panel 2 of the present invention. For convenience of explanation, in Fig. 5, only the first electrode portion 221a and the second electrode portion 221b of the first electrode layer 221 of the composite organic light-emitting element 22 are shown. In the range shown in FIG. 5, the organic light-emitting panel 2 is exemplified by nine composite organic light-emitting elements 22 along the X-axis direction, and each composite has a number of 200915920 22 having a first-electrode portion*--- Extremely 221b. Each of the composite organic light-emitting elements 2 and the first home electrode two-electrode elements b have a corresponding shape: a portion 2 (1) and a second halogen P2, and an organic light-emitting surface: a square and a second second. Forming two secondary halogens from the direction of the X-axis, so that the transferable hairpin 22 can have the second in the organic light-emitting element 22, a bedding signal, and the same composite can be made by the person> The thickness of the shoulder is not different. In Figure 5, the 亥^hai special hard organic light-emitting element 22 is 3 = is in the direction of the other axis, adjacent to the four? - Degree is an example. Among them, the 昼 昼 Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ Ρ An electrode; 22! and ^ ' because the first electrical layer 221 of each composite organic light-emitting element 22 has a first electrode portion 22u such that each composite organic light-emitting element 22 corresponds to + σ, the second electrode portion 221b素:之:# The distance between the 221a and the second value P2 is d2 (Μμιη). The distance between the production process (3〇μιη) is small. As a result, the reduction of the painting makes the elasticity and change ° due to the spacing of the secondary elements. If the area of the non-region is reduced, if the two-U can maintain the same aperture ratio, the defined volume of the element is higher than that of the conventional structure (as shown in Fig. 2), the solution of the organic light-emitting panel 2 (4) is improved; In the case where the same resolution is captured, the opening degree can be increased, and the brightness of the entire panel can be increased. However, the organic light-emitting panel 2 currently used is mainly colored display, *this is also shown in FIG. 4 and FIG. 'With the first - organic light-emitting layer 11 200915920 The organic light-emitting layer can be made to emit light, and the composite organic light-emitting element 22, respectively, 〇〇, green light (G) and blue light (B) can be obtained as shown in FIG. 6; The light emitted by the composite organic light-emitting element 22' in the upper part of the column of the organic light-emitting panel 2 is in the order of red-green light and blue light, wherein, in the direction of the x-axis, the phase The next 4 times 壹 = «素Ρ' (as shown by the dotted line in Figure 5, and the unselected sub-suppressed lines in the above figure can still form pixels with other sub-tendines not in the figure. Similarly, Since the distance between the secondary ρρι and the spacing d2 is smaller than that of the conventional clock process, if the same aperture ratio is used, the defined = structure (as shown in FIG. 2) can be made larger. The organic hair: surface double resolution is improved. The solution is to make the effect of the present invention as an example of a clear color m organic light-emitting panel 2'. The arrangement of the secondary proteins ργ and Ρ2 is as follows. The arrangement shown in Fig. 6 in the form of strips can also be arranged in other ways. The right side is divided into 4 and Fig. 7 7 is a top view of a partial arrangement of the elements of the light-emitting panel 2' as shown in FIG. 4. In the second embodiment, the composite organic light-emitting element 22, the red secondary pigment, 2 , green sub-sputum Ρ 1 ', Ρ 2 ′ and blue sub-pixel ρ ι 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 Divided into 12 elements ρ, (as shown by the dashed line in the figure, the structure of the structure (as shown in FIG. 3) is more than the element F of the organic light-emitting panel 2·12 200915920 of the present embodiment. Therefore, the present embodiment The organic light-emitting panel 2 ′ also has a higher resolution. The organic light-emitting panel 3 of the second embodiment of the present invention includes a substrate 31 and a plurality of composite organic light-emitting elements 32 . A halogen defines layer 33 and a barrier layer 34. The composition and function of the above composite organic light-emitting element 32 are the same as those of the composite organic light-emitting element 22 of the first embodiment, and will not be described here. The difference from the first embodiment is that the organic light-emitting panel 3 further includes at least one organic light-emitting element 35. The organic light-emitting elements 35 are also disposed on the substrate 31 and arranged in a space spaced apart from the composite organic light-emitting elements 32. The organic light emitting device 35 includes a third electrode layer 351, a second organic light emitting layer 352, and a fourth electrode layer 353. The third electrode layer 351 is disposed on the substrate 31, and the third electrode layer 351 is not divided into two different electrode portions. The second organic light-emitting layer 352 is disposed on the third electrode layer 351, and the fourth electrode layer 353 is disposed on the second organic light-emitting layer 352. In the present embodiment, the third electrode layer 351 is made of the same material as the first electrode layer 321 , and the fourth electrode layer 353 is made of the same material as the second electrode layer 323 , wherein the first electrode layer 321 and the second electrode layer 321 The material of the electrode layer 323 has been described in detail in the first embodiment, and details are not described herein again. In addition, the fourth electrode layer 353 and the third electrode layer 351 are also electrically connected. Next, referring to Fig. 9, it is a top view of a partial arrangement of the elements of the organic light-emitting panel 3 shown in Fig. 8. In Fig. 9, an organic 13 200915920 light-emitting panel 3 has a plurality of composite organic light-emitting elements 32 and a plurality of light-emitting elements 35 as an example. In the X-axis direction of the organic light-emitting panel 3, there are eight composite organic light-emitting elements 32 and four organic light-emitting elements 35, and the complex σ organic light-emitting elements 32 such as _X are arranged in a spaced relationship with the organic light-emitting elements. Eight hearts!·, 'Organic light-emitting panel 3 corresponds to the composite organic light-emitting element 32 knife| J into a first-time 昼 昼 ρι and a second book such as the organic light-emitting element 35 is formed = corresponding to the P3 system and adjacent On the other side, 5 brothers owe one lie; ^Pi. One and three times to form the formation - 昼素P (as shown in Figure 9 in the Luxian factory,; #人昼素P2 sub-picture system can still be compared with others;,, the middle table: it: == = ^ The number of vegans is also much higher than that of the conventional ones. The organic hair slab 3 of the financial embodiment also has a high level of ^) and the present embodiment is the same as the previous embodiment: the organic light-emitting panel 3', please refer to Figure 1〇, 2: J shows the Μ and the organic luminescence === illuminating light, green light, blue light, blue light, red light, the first line is in red and its picture is 画The arrangement is 盥9~, first, ,,, surface light, blue light and red light, and will not be described here. The organic light-emitting panel 3 of "" is the same, and it should be noted that each of the elements 32, 32' of the present invention is smashed, and the organic light-transmitting elements 22, 22, and the same image signal. A composite organic 200915920 light-emitting element 22 according to the present invention is disposed on a substrate 21, and the composite organic light-emitting element 22 includes a first electrode layer 221 and an organic light-emitting layer 222. And a second electrode layer 223. The first electrode layer 221 is disposed on the substrate 21, the first electrode layer 221 has a first electrode portion 221a and a second electrode portion 221b, and the first electrode portion 221a is connected to the second electrode The portion 221b is disposed in parallel. The organic light-emitting layer 222 is disposed on the first electrode layer 221. The second electrode layer 223 is disposed on the organic light-emitting layer 222. The composition and function of the composite organic light-emitting element 22 of the present embodiment are as described above. The detailed description of the first embodiment is omitted here. Referring to FIG. 4 and FIG. 7 , an organic light-emitting panel 2 ′ according to the present invention comprises a substrate 21 , a plurality of first organic light-emitting elements R, and a plurality of Second organic light emitting element G and complex The third organic light-emitting elements B are disposed on the substrate 21 and generate a first primary color. The second organic light-emitting elements G are disposed on the substrate 21 and generate a second primary color. The third organic light-emitting elements B are disposed on the substrate 21 and generate a third primary color. The organic light-emitting elements R, G, and B are arranged in a matrix, and the first column includes at least six organic light-emitting elements R and G. And B are sequentially the first organic light emitting element R, the first organic light emitting element R, the second organic light emitting element G, the second organic light emitting element G, the third organic light emitting element B, and the third organic light emitting element B; The column includes at least six organic light-emitting elements R, G, and B and is disposed corresponding to the first column, and sequentially is the third organic light-emitting element B, the third organic light-emitting element B, the first organic light-emitting element R, and the first organic light-emitting element. R, the second organic light-emitting element G and the second organic light-emitting element G. 15 200915920 wherein the 'different' primary color, the younger one primary color and the second primary color are red, green and blue, respectively, and the composite in the first embodiment Organic light emitting element 22 Equivalent to two first organic light-emitting elements R, two second organic light-emitting elements G or two third organic light-emitting elements B, since the composition and structure of the composite organic light-emitting elements 22 are as detailed in the foregoing embodiments, Referring to FIG. 10, an organic light emitting panel 3' according to the present invention includes a substrate 31, a plurality of first organic light emitting elements R, a plurality of second organic light emitting elements G, and a plurality of third organic Light-emitting element B. The first organic light-emitting elements R are disposed on the substrate 31 and generate a first primary color; the second organic light-emitting elements G are disposed on the substrate 31 and generate a second primary color; The organic light emitting element B is disposed on the substrate 31 and generates a third primary color. The organic light-emitting elements R, G, and B are arranged in a matrix, and each column includes at least nine organic light-emitting elements R, G, and B, which are sequentially the first organic light-emitting element R and the second organic light-emitting element G, and The three organic light-emitting elements B, the third organic light-emitting elements B, the first organic light-emitting elements R, the second organic light-emitting elements G, the second organic light-emitting elements G, the third organic light-emitting elements B, and the first organic light-emitting elements R. The first primary color, the second primary color, and the third primary color are red, green, and blue, respectively. The composition and structure of the first organic light-emitting element R, the second organic light-emitting element G, and the third organic light-emitting element B are equivalent to the composite organic light-emitting element 32 or the organic light-emitting element 35 in the second embodiment, because the composite organic light-emitting element 32 and the composition and structure of the organic light-emitting element 35 have been described in detail in the second embodiment, and details are not described herein again. In summary, the organic light-emitting panel and the composite organic light-emitting element 16 200915920 of the present invention have a first electrode portion and a second electrode portion disposed on the first electrode of the composite organic light-emitting device, so that the composite organic light-emitting panel of the organic light-emitting panel The element forms the first and second pixels corresponding to the first electrode portion and the second electrode portion, respectively. Therefore, the organic light-emitting panel and the composite organic light-emitting device of the present invention can reduce the pitch between the secondary elements. Moreover, the organic light-emitting panel of the present invention can form a plurality of halogens by different arrangement of the sub-halogens, thereby obtaining a better resolution, or increasing the aperture ratio of the secondary halogen and improving the display brightness. Of course, the organic light-emitting panel and the composite organic light-emitting device of the present invention may also have a light-emitting element of the same structure as the conventional structure, and the composite organic light-emitting element and the organic light-emitting element are combined and applied in different ways to meet the practical requirements. The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a conventional organic light-emitting panel structure; FIG. 2 is a top view showing a partial arrangement of pixels of a conventional organic light-emitting panel; FIG. 3 is a top view. FIG. 4 is a schematic view showing the structure of the organic light-emitting panel and the composite organic light-emitting element according to the first embodiment of the present invention; FIG. 5 is a top view showing the structure of the organic light-emitting panel; The partial arrangement of the pixels of the organic hair plate of the first embodiment of the present invention is as follows: the light surface= is a top view showing a part of the method of displaying the color of the organic hair plate of the first embodiment of the present invention; Figure 7 is a top view, _千太旅# The light panel displays a part of the color 昼; == The organic light-emitting surface IS of the embodiment is a schematic view, showing that the organic hair-setting 9 system of the second embodiment of the present invention is an upper a view showing a partial arrangement of pixels of the _th tone ρ γ light panel of the present invention; and an organic luminescence of the syllabic _ _ _ _ _ _ _ _ _ _ _ _ _ _昼素排财. (4) [Explanation of main component symbols] I 2 ' 2 ' 3, 3': Organic light-emitting panel II ' 21 ' 31 : Substrate 12 : Organic light-emitting element 121 : Transparent anode layer • 122 : Organic light-emitting layer - 123 : Metal cathode layer 13 : a halogen barrier layer 22 32 , W · composite organic light-emitting element 221 : first electrode layer 221 a : first electrode portion 221 b : second electrode portion 18 200915920 222, 222 ′: first organic light-emitting layer 223 : second electrode layer 23, 33: halogen definition layer 24, 34: barrier layer 35, 35': organic light-emitting element 351: third electrode layer 352: second organic light-emitting layer 353: fourth electrode layer B: third organic light-emitting element dl, D2 : Spacing G: second organic light-emitting element P, P': halogen P1, P1': first halogen P2, P2': second halogen P3 · · third halogen R · · first Organic light emitting element 19

Claims (1)

200915920 X. Patent application scope: 1. An organic light-emitting panel comprising: a substrate; and at least one composite organic light-emitting element disposed on the substrate, the composite organic light-emitting element having a first electrode layer and a first An organic light-emitting layer and a second electrode layer, wherein the first electrode layer is disposed on the substrate, the first electrode layer has a first electrode portion and a second electrode portion, and the first electrode portion is coupled to the first electrode portion The two electrode portions are disposed on the first electrode layer, and the second electrode layer is disposed on the first organic light-emitting layer. 2. The organic light-emitting panel of claim 1, wherein the substrate is selected from at least one of a rigid substrate, a flexible substrate, a glass substrate, and a plastic substrate. 3. The organic light-emitting panel of claim 1, wherein the first organic light-emitting layer comprises a hole transport layer, a light-emitting layer, and an electron transport layer. 4. The organic light-emitting panel of claim 1, wherein the first electrode layer is a metal oxide electrode layer. 5. The organic light-emitting panel of claim 4, wherein the material of the metal oxide electrode layer is selected from the group consisting of indium tin oxide, indium oxide, 20 200915920, and aluminum oxide and combinations thereof. 6. The organic light-emitting panel of claim 1, wherein the material of the second electrode layer is selected from the group consisting of aluminum, calcium, magnesium, indium, tin, manganese, silver, gold, and magnesium-containing alloys, and combinations thereof. The group formed. 7. The organic light-emitting panel of claim 1, further comprising: a pixel definition layer disposed on the substrate. 8. The organic light-emitting panel of claim 7, further comprising: a barrier layer disposed on the definition layer of the halogen. 9. The organic light-emitting panel of claim 1, further comprising: at least one organic light-emitting element disposed on the substrate and adjacent to the composite organic light-emitting element, the organic light-emitting element comprising: a third electrode layer is disposed on the substrate; a second organic light emitting layer is disposed on the third electrode layer; and a fourth electrode layer is disposed on the second organic light emitting layer. The organic light-emitting panel of claim 9, wherein the first organic light-emitting layer and the second organic light-emitting layer are the same material and are simultaneously vapor-deposited. 11. A composite organic light-emitting device disposed on a substrate, wherein the composite light-emitting element comprises: a first electrode layer disposed on the substrate, the first electrode layer having a first electrode portion and a first electrode layer a second electrode portion, the first electrode portion is disposed in parallel with the second electrode portion; an organic light emitting layer is disposed on the first electrode layer; and a second electrode layer is disposed on the organic light emitting layer . 12. The composite organic light-emitting device according to claim 11, wherein the substrate is selected from at least one of a rigid substrate, a flexible substrate, a glass substrate, and a plastic substrate. 13. The composite organic light-emitting device of claim 11, wherein the organic light-emitting layer comprises a hole transport layer, a light-emitting layer, and an electron transport layer. 14. The composite organic light-emitting device according to claim 11, wherein the first electrode layer is a metal oxide electrode layer. 15. The composite organic light-emitting device according to claim 14, wherein the metal oxide electrode layer is selected from the group consisting of indium tin oxide, indium zinc oxide, and oxidized zinc and combinations thereof. 16. The composite organic light-emitting device according to claim 11, wherein the material of the second electrode layer is selected from the group consisting of: Ming, | Bow, Magnesium, Indium, Tin, 22 200915920 in Mengyin, Jin, and magnesium-containing alloys. And the group formed by its combination. The organic light-emitting panel comprises: a substrate; a plurality of first-organic light-emitting turns disposed on the substrate to generate a first primary color; and a plurality of second organic light-emitting elements disposed on the substrate to generate a second primary color And a plurality of third organic light-emitting elements are disposed on the substrate to produce a third primary color; 17 are produced by the system, and the organic light-emitting elements are matrixed (four), and each column includes at least ST: optical elements, in order The first organic light emitting element: the ft light emitting element, the third organic light emitting element, and the light emitting element: the first organic light emitting element, the third light emitting element, the second organic light emitting element, and the first light emitting element; The first organic light emitting element. . Haidi 2 has Μ, such as the patent scope of the 17th the first - primary color, the second primary color: the seesaw, shoot green and blue. The two primary colors are red, • an organic light-emitting panel, including a substrate; placed on a 5-well substrate, producing a plurality of first organic #optical components, 23 19 200915920, a first primary color; a plurality of second An organic light-emitting element is disposed on the substrate to generate a second primary color; and a plurality of third organic light-emitting elements are disposed on the substrate to generate a third primary color; wherein the organic light-emitting elements are matrixed Arranging, the first column comprises at least six organic light emitting elements, in sequence, the first organic light emitting element, the first organic light emitting element, the second organic light emitting element, the second organic light emitting element, and the third organic light emitting element And the third organic light emitting element; the second column includes at least six organic light emitting elements and is disposed corresponding to the first column, and sequentially the third organic light emitting element, the third organic light emitting element, and the first organic light emitting element The first organic light emitting device, the second organic light emitting device, and the second organic light emitting device. The organic light-emitting panel of claim 19, wherein the first primary color, the second primary color, and the third primary color are red, green, and blue, respectively. twenty four