WO2010092796A1 - 発光素子、発光素子を備えた発光装置および発光素子の製造方法 - Google Patents
発光素子、発光素子を備えた発光装置および発光素子の製造方法 Download PDFInfo
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- WO2010092796A1 WO2010092796A1 PCT/JP2010/000782 JP2010000782W WO2010092796A1 WO 2010092796 A1 WO2010092796 A1 WO 2010092796A1 JP 2010000782 W JP2010000782 W JP 2010000782W WO 2010092796 A1 WO2010092796 A1 WO 2010092796A1
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- Prior art keywords
- bank
- layer
- light emitting
- charge injecting
- transporting layer
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Classifications
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- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K50/00—Organic light-emitting devices
- H10K50/10—OLEDs or polymer light-emitting diodes [PLED]
- H10K50/17—Carrier injection layers
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K59/00—Integrated devices, or assemblies of multiple devices, comprising at least one organic light-emitting element covered by group H10K50/00
- H10K59/10—OLED displays
- H10K59/12—Active-matrix OLED [AMOLED] displays
- H10K59/122—Pixel-defining structures or layers, e.g. banks
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K50/00—Organic light-emitting devices
- H10K50/30—Organic light-emitting transistors
-
- H—ELECTRICITY
- H10—SEMICONDUCTOR DEVICES; ELECTRIC SOLID-STATE DEVICES NOT OTHERWISE PROVIDED FOR
- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
- H10K71/00—Manufacture or treatment specially adapted for the organic devices covered by this subclass
Definitions
- the present invention relates to a light emitting element, a light emitting device including the light emitting element, and a method for manufacturing the light emitting element.
- organic electroluminescence element (hereinafter referred to as an “organic EL element”), which has been researched and developed in recent years, is a light-emitting element utilizing an electroluminescence phenomenon of an organic material.
- the organic EL element has a structure in which a light emitting layer is interposed between a first electrode (anode) and a second electrode (cathode).
- a bank made of an insulating material is formed on the side of the light emitting layer, and the shape of the light emitting layer is defined by this bank.
- a hole injection layer, a hole transport layer, or a hole injection / transport layer is interposed between the first electrode and the light-emitting layer, if necessary, and between the second electrode and the light-emitting layer, as necessary.
- an electron injection layer, an electron transport layer, or an electron injection / transport layer is interposed (hereinafter referred to as a hole injection layer, a hole transport layer, a hole injection / transport layer, an electron injection layer, an electron transport layer, and an electron injection / transport layer).
- charge injection transport layer are collectively referred to as “charge injection transport layer”).
- a charge injection transport layer is formed using a conductive polymer material such as PEDOT (mixture of polythiophene and polystyrene sulfonic acid), but charge injection transport using a metal compound such as a transition metal oxide. It has been proposed to form a layer (see, for example, Patent Document 1). Metal compounds are superior to PEDOT in voltage-current density characteristics, and are considered to be less likely to deteriorate when a large current is passed to increase the light emission intensity. Therefore, utilization of the metal compound for the charge injecting and transporting layer is expected.
- PEDOT mixture of polythiophene and polystyrene sulfonic acid
- an object of the present invention is to provide a light emitting element having good light emission characteristics, a light emitting device including the light emitting element, and a method for manufacturing the light emitting element.
- a stacked body of at least a charge injecting and transporting layer and a light-emitting layer is interposed between the first electrode and the second electrode, and the region is defined by the bank.
- the edge of the recess formed in the charge injecting and transporting layer is covered with a part of the bank, it is possible to suppress the concentration of the electric field on the edge of the recess during light emission. It can suppress that an electric current flows into a light emitting layer locally. Therefore, luminance unevenness in the light emitting surface can be suppressed, and the light emission characteristics can be further improved.
- the end view for demonstrating the process which resulted in 1 aspect of this invention The top view which shows a part of organic electroluminescent display which concerns on embodiment of this invention
- the end view which shows typically the partial cross section of the organic electroluminescent display which concerns on embodiment of this invention Enlarged end view of part B surrounded by the alternate long and short dash line in FIG.
- the inventor of the present invention relates to an organic EL element to which a metal compound is applied, as described in the “Background Art” section, and through extensive research, there is a possibility that the lifetime of the light emitting surface may be reduced due to generation of uneven brightness or local deterioration. I found something new.
- FIG. 1 is an end view showing a manufacturing process of an organic EL display.
- FIG. 1A shows a state where the first electrode 2, the ITO layer 3, the hole injection layer 4, and the bank 5 are formed on the TFT substrate 1.
- FIG. 1B shows a state in which the light emitting layer 6, the electron injection layer 7, the second electrode 8, and the sealing layer 9 are further formed.
- the recess 4a is formed on the upper surface of the hole injection layer 4 in the process of forming the bank 5 (FIG. 1A). reference).
- the electric field is concentrated near the edge 4c of the recess during light emission.
- a current may flow locally in the light emitting layer 6, and the generation of this local current may cause a problem of shortening the lifetime due to uneven brightness in the light emitting surface or local deterioration. is there.
- the inventor has covered the edge of the recess formed in the charge injecting and transporting layer with a part of the bank, thereby reducing the concentration of charges near the edge of the recess during light emission. As a result, it was possible to conceive the technical feature of suppressing the local current flow in the light emitting layer.
- a stacked body of at least a charge injecting and transporting layer and a light-emitting layer is interposed between the first electrode and the second electrode, and the region is defined by the bank.
- the edge of the recess formed in the charge injecting and transporting layer is covered with a part of the bank, it is possible to suppress the concentration of the electric field on the edge of the recess during light emission. It can suppress that an electric current flows into a light emitting layer locally. Therefore, luminance unevenness in the light emitting surface can be suppressed, and the light emission characteristics can be further improved.
- the material constituting the charge injecting and transporting layer may be a material eroded by a liquid used when forming the bank.
- the material constituting the charge injecting and transporting layer may be a metal oxide, nitride or oxynitride. These materials are generally hydrophilic. Therefore, the recess can be formed in the cleaning step with pure water during the step of forming the bank.
- a part of the bank may reach the bottom surface of the recess in the recessed structure of the charge injection transport layer, and the side surface of the bank may be an upward slope from the point of arrival to the bottom surface of the recess. Good.
- the light emitting layer is formed by a printing technique such as an ink jet method, it is possible to easily allow ink to enter every corner in the area defined by the bank, and to suppress the generation of voids and the like.
- a part of the bank may not reach the bottom surface of the concave portion in the concave structure of the charge injection transport layer.
- the bank material may be fluidized by applying heat treatment to the bank material so that the edge of the recess is covered with a part of the bank material. It is done. According to the above configuration, the bank material does not have to flow to the bottom of the recess, so that the temperature and time of the heat treatment can be reduced to a short time.
- the bank may include an insulating material. Thereby, adjacent light emitting layers can be insulated.
- the light emitting layer may be an organic EL layer.
- the charge injection transport layer may extend to the side of the bank along the bottom surface of the bank.
- the edge of the concave portion of the charge injecting and transporting layer may be a convex corner formed by a region that is not recessed on the upper surface of the charge injecting and transporting layer and the side surface of the concave portion.
- a light emitting device which is one embodiment of the present invention includes a plurality of the light emitting elements described above.
- a stacked body of at least a charge injecting and transporting layer and a light-emitting layer is interposed between the first electrode and the second electrode, and the shape of the bank is Is a method of manufacturing a light emitting device, wherein a step of forming a charge injection / transport layer, a step of forming a bank material layer made of a material constituting a bank on the charge injection / transport layer, and the bank material layer A part of the charge injecting and transporting layer is exposed to expose a part of the charge injecting and transporting layer, a remaining part of the bank material layer on the charge injecting and transporting layer is heat treated, and the exposed after the heat treating process.
- the charge injection transport layer is made of a material eroded by a liquid used in a state where a part of the charge injection transport layer is exposed, and the charge injection The exposed surface of the transport layer is the liquid
- the bank is formed from the remaining portion by providing fluidity to the remaining portion of the bank material layer. The constituent material is extended to the edge of the recess of the recess structure.
- an organic EL element using an organic EL material for a light emitting layer will be described as a light emitting element
- an organic EL display will be described as an example of a light emitting device provided with a plurality of light emitting elements.
- the scale of the member in each drawing differs from an actual thing.
- FIG. 2 is a plan view showing a part of the organic EL display according to the embodiment of the present invention.
- the organic EL display 100 is a top emission type organic EL display in which organic EL elements 10a, 10b, and 10c each having an RGB light emitting layer are arranged in a matrix. Each organic EL element functions as a sub-pixel, and a set of three organic EL elements of RGB functions as a pixel.
- a cross-shaped pixel bank 55 is employed, and the light emitting layers 56 a 1, 56 b 1, and 56 c 1 adjacent to each other in the X axis direction are divided by the bank elements 55 a extending in the Y axis direction, and the light emitting layer 56a2, 56b2, and 56c2 are divided.
- the bank elements 55b extending in the X-axis direction divide the light emitting layers 56a1 and 56a2 adjacent in the Y-axis direction, the light emitting layers 56b1 and 56b2, and the light emitting layers 56c1 and 56c2.
- FIG. 3 is an end view schematically showing a partial cross section of the organic EL display according to the embodiment of the present invention, and shows a cross section taken along line AA of FIG.
- FIG. 4 is an enlarged end view of a portion B surrounded by an alternate long and short dash line in FIG.
- a first electrode 2 as an anode is formed in a matrix on a TFT substrate 1 (hereinafter simply “substrate 1”).
- An ITO (indium tin oxide) layer 3 and a hole are formed on the first electrode 2.
- the injection layer 4 is laminated in that order.
- the ITO layer 3 is laminated only on the first electrode 2, whereas the hole injection layer 4 is formed not only on the first electrode 2 but over the entire upper surface of the substrate 1.
- a bank 5 is formed on the upper periphery of the first electrode 2 via a hole injection layer 4, and a light emitting layer 6 is laminated in a region defined by the bank 5. Further, on the light emitting layer 6, an electron injection layer 7, a second electrode 8 that is a cathode, and a sealing layer 9 are adjacent to the organic EL elements 10 a, 10 b, 10c is formed so as to be continuous.
- the substrate 1 is, for example, alkali-free glass, soda glass, non-fluorescent glass, phosphoric acid glass, boric acid glass, quartz, acrylic resin, styrene resin, polycarbonate resin, epoxy resin, polyethylene, polyester, silicone resin. Or an insulating material such as alumina.
- the first electrode 2 is made of Ag (silver).
- the first electrode 2 is, for example, APC (silver, palladium, copper alloy), ARA (silver, rubidium, gold alloy), MoCr (molybdenum and chromium alloy), NiCr (nickel and chromium alloy), etc. It may be formed by. In the case of a top emission type light emitting element, it is preferably formed of a light reflective material.
- the ITO layer 3 is interposed between the first electrode 2 and the hole injection layer 4 and has a function of improving the bonding property between the layers.
- the hole injection layer 4 is formed of WOx (tungsten oxide) or MoxWyOz (molybdenum-tungsten oxide).
- the hole injection layer 4 should just be formed with the metal compound which performs a hole injection function, As such a metal compound, a metal oxide, a metal nitride, or a metal oxynitride is mentioned, for example.
- the hole injection layer 4 When the hole injection layer 4 is formed of a specific metal compound, holes can be easily injected, and electrons can effectively contribute to light emission in the light emitting layer 6, so that good light emission characteristics can be obtained. it can.
- a specific metal compound a transition metal is preferable. Since the transition metal takes a plurality of oxidation numbers, it can take a plurality of levels. As a result, hole injection becomes easy and the driving voltage can be reduced.
- the hole injection layer 4 extends laterally along the bottom surfaces 5a and 5b of the bank 5, and a part of the top surface is recessed to form a recess 4a.
- a bottom surface 4b as an inner bottom surface portion of the recess 4a is depressed below the level 5c of the bank bottom surface 5a.
- the recess 4a includes a bottom surface 4b and a side surface 4d as an inner side surface continuous with the bottom surface 4b.
- the depth of the recess 4a is approximately 5 nm to 30 nm.
- the edge 4c of the recess is a convex corner portion formed by the region 4e that is not recessed on the upper surface of the hole injection layer 4 and the side surface 4d of the recess, and is covered with the covering portion 5d that is a part of the bank 5. Yes.
- the edge 4c of the recess protrudes with respect to the bottom surface 4b of the recess, if the edge 4c of the recess is not covered with the insulating covering portion 5d, an electric field concentration occurs and the light emitting layer 6 is locally localized. As a result, current flows, and as a result, there is a problem that the life of the product is shortened due to uneven brightness in the light emitting surface and local deterioration of the light emitting layer 6.
- the edge 4c of the recess is covered with the insulating covering portion 5d, it is possible to suppress the occurrence of such a problem.
- the thickness of the covering portion 5d (the shortest distance from the edge 4c of the recess to the light emitting layer 6) be 2 nm to 5 nm.
- the shape of the edge 4c of the recess is made polygonal or rounded rather than the edge shape as shown in FIG. 4 as an example, so that electric field concentration can be further suppressed.
- the covering portion 5d reaches the bottom surface 4b of the recess 4a, and the side surface of the bank 5 is an upward slope from the point reaching the recess bottom surface 4b to the apex.
- the bank 5 is for partitioning the light emitting layer 6 for each sub-pixel, and is formed of an organic material such as resin and has an insulating property.
- organic materials include acrylic resins, polyimide resins, novolac type phenol resins, and the like.
- the bank 5 preferably has organic solvent resistance. Furthermore, since the bank 5 may be subjected to an etching process, a baking process, or the like, it is preferable that the bank 5 be formed of a highly resistant material that does not excessively deform or alter the process.
- the light emitting layer 6 includes, for example, an oxinoid compound, a perylene compound, a coumarin compound, an azacoumarin compound, an oxazole compound, an oxadiazole compound, a perinone compound, a pyrrolopyrrole compound, a naphthalene compound, an anthracene compound described in JP-A-5-163488.
- the electron injection layer 7 has a function of transporting electrons injected from the second electrode 8 to the light emitting layer 6, and is preferably formed of, for example, barium, phthalocyanine, lithium fluoride, or a combination thereof.
- the second electrode 8 is made of, for example, ITO, IZO (indium zinc oxide) or the like. In the case of a top emission type light emitting element, it is preferably formed of a light transmissive material.
- the sealing layer 9 has a function of preventing the light emitting layer 6 and the like from being exposed to moisture or air, and is made of, for example, a material such as SiN (silicon nitride) or SiON (silicon oxynitride). It is formed. In the case of a top emission type light emitting element, it is preferably formed of a light transmissive material.
- ⁇ Manufacturing method> 5 to 7 are process diagrams illustrating a method for manufacturing an organic EL display according to an embodiment of the present invention.
- an Ag thin film is formed on a substrate 1 by, for example, sputtering, and the Ag thin film is patterned by, for example, photolithography to form first electrodes 2 in a matrix.
- the Ag thin film may be formed by vacuum deposition or the like.
- an ITO thin film is formed by, for example, sputtering, and the ITO layer 3 is formed by patterning the ITO thin film by, for example, photolithography.
- a thin film 11 of WOx or MoxWyOz is formed by a technique such as vacuum deposition or sputtering using a composition containing WOx or MoxWyOz.
- a bank material layer 12 is formed on the thin film 11 and a part of the bank material layer 12 is removed to expose a part of the thin film 11.
- the bank material layer 12 can be formed, for example, by coating.
- the removal of the bank material layer 12 can be performed by forming a resist pattern on the bank material layer 12 and then performing etching.
- the resist pattern is removed after etching by, for example, an aqueous or non-aqueous release agent.
- etching residue is washed with pure water.
- WOx or MoxWyOz which is a material constituting the thin film 11 has a property of being easily dissolved in pure water, so that an exposed portion of the thin film 11 is eroded and formed into a concave structure as shown in FIG. The As a result, a hole injection layer 4 having a recess 4a is formed.
- heat treatment is performed to give a certain degree of fluidity to the remaining portion of the bank material layer 12, and the bank material is extended from the remaining portion to the edge 4c of the recess. As a result, the edge 4c of the recess is covered with the covering portion 5d.
- heat curing can be employed for the heat treatment. The temperature and time of the heat curing may be appropriately determined in consideration of the type of bank material, the required thickness of the covering portion 5d, and the like.
- the surface of the remaining portion of the bank material layer 12 is subjected to a liquid repellent treatment using, for example, fluorine plasma to form the bank 5.
- a composition ink (hereinafter simply referred to as “ink”) containing an organic EL material is dropped into the region defined by the bank 5 by, for example, an ink jet method. Is dried to form the light emitting layer 6.
- the ink may be dropped by a dispenser method, a nozzle coating method, a spin coating method, intaglio printing, letterpress printing, or the like.
- a barium thin film to be the electron injection layer 7 is formed by, for example, vacuum deposition, and as shown in FIG. 7B, an ITO thin film to be the second electrode 8 by, for example, sputtering. As shown in FIG. 7C, a sealing layer 9 is further formed.
- the manufacturing method even if the recessed portion 4a is formed in the exposed portion of the hole injection layer 4 in the manufacturing process, the edge 4c of the recessed portion is covered with the covering portion 5d, and then the light emitting layer 6 is formed. It is possible to suppress the concentration of the electric field on the edge 4c of the recess.
- this invention is not limited to these embodiment.
- the following modifications can be considered.
- WOx or MoxWyOz is used as the material constituting the hole injection layer 4, but generally, metal oxides, nitrides, and oxynitrides are easily eroded by pure water. Even when a metal other than Mo (molybdenum) and W (tungsten) is used, the same effect can be obtained by applying this embodiment.
- the hole injection layer is eroded by pure water during cleaning to form a recess, but if the present invention is adopted, even if the recess is formed for other reasons, An effect of suppressing the concentration of the electric field on the edge of the recess can be obtained.
- Other reasons include, for example, the case where the hole injection layer is eroded by an etching solution during etching or the case where the hole injection layer is eroded by a stripping agent during resist stripping. In this way, when the hole injection layer is made of a material eroded by the liquid used when forming the bank, more specifically, the material eroded by the liquid used with a part of the hole injection layer exposed.
- the present invention is effective when consisting of: (3)
- the covering portion extending from the bank reaches the bottom surface 4b of the concave portion beyond the edge 4c of the concave portion.
- the present invention only needs to cover the edge 4c of the concave portion. Not limited to.
- the cover 5d may not reach the bottom surface 4b of the recess.
- the bank material does not have to flow to the bottom of the recess, so that the heat treatment temperature and time can be reduced to a short time.
- the present invention uses the max patterning or the like as another forming method. You can also.
- FIG. 6A the lower end of the slope of the bank material 12 and the edge 4c of the recess coincide, but this is not necessarily the case.
- the slope of the bank material 12 may recede to expose a part of the non-recessed region 4e. Even in this case, the bank material 12 may be appropriately heat-treated so that the edge 4c of the recess is covered with a part of the bank material (see FIG. 9B).
- the present invention is not limited to this.
- a hole transport layer 13 may be formed on the hole injection layer 4, and these may be inserted as a charge injection transport layer.
- a recess is formed on the upper surface of the hole transport layer 13, and the edge of the recess formed in the hole transport layer is covered with the covering portion.
- the ITO layer 3 is formed thereon.
- the ITO layer 3 can be eliminated and the anode can have a single layer structure.
- an organic EL display is described as an example of a light-emitting device including a plurality of light-emitting elements, but the present invention is not limited to this and can be applied to a lighting device or the like.
- a so-called pixel bank is used, but the present invention is not limited to this.
- a line bank (line-shaped bank) can be adopted.
- the line bank 65 is employed, and the light emitting layers 66a, 66b, 66c adjacent in the X-axis direction are divided. As shown in FIG.
- the present invention is not limited to this and may be a bottom emission type.
- the present invention is not limited to this and may be a bottom emission type.
- the electron injection layer is interposed between the light emitting layer and the second electrode. However, in addition to this, an electron transport layer may be interposed.
- the present invention can be used for an organic EL display or the like.
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Abstract
Description
本発明者は、「背景技術」の欄において記載した、金属化合物を適用した有機EL素子に関し、鋭意研究により、発光面内における輝度ムラの発生や局所的な劣化による寿命の低下の可能性があることを新たに見出した。
本発明の一態様である発光素子は、第1電極と第2電極との間に、少なくとも電荷注入輸送層と発光層との積層体が介挿され、かつ、バンクで規定された領域に前記発光層が存する発光素子であって、前記電荷注入輸送層は、前記バンクで規定された領域においては上面が沈下した凹入構造に形成され、前記電荷注入輸送層の凹入構造における凹部の縁は、前記バンクの一部で被覆されている。
図2は、本発明の実施形態に係る有機ELディスプレイの一部を示す平面図である。
基板1は、例えば、無アルカリガラス、ソーダガラス、無蛍光ガラス、燐酸系ガラス、硼酸系ガラス、石英、アクリル系樹脂、スチレン系樹脂、ポリカーボネート系樹脂、エポキシ系樹脂、ポリエチレン、ポリエステル、シリコーン系樹脂、又はアルミナ等の絶縁性材料で形成されている。
図5乃至図7は、本発明の実施形態に係る有機ELディスプレイの製造方法を説明する工程図である。
(1)上記実施形態では、ホール注入層4を構成する材料としてWOx又はMoxWyOzを用いて説明しているが、一般に、金属の酸化物、窒化物、酸窒化物は純水に浸食されやすいので、Mo(モリブデン)、W(タングステン)以外の金属を用いた場合でも本実施形態を適用することにより同様の効果を奏することができる。
(2)上記実施形態では、ホール注入層は洗浄の際に純水に浸食されて凹部が形成されているが、本発明を採用すれば、それ以外の理由により凹部が形成されたとしても、凹部の縁に電界が集中するのを抑制するという効果を得ることができる。それ以外の理由とは、例えば、ホール注入層がエッチングの際にエッチング液に浸食される場合や、レジスト剥離の際に剥離剤に浸食される場合などが挙げられる。このように、ホール注入層がバンクを形成する際に用いられる液体に浸食される材料からなる場合、より詳細には、ホール注入層の一部が露出した状態で用いられる液体に浸食される材料からなる場合に、本発明は有効である。
(3)上記実施形態では、バンクから延出した被覆部は凹部の縁4cを越えて凹部の底面4bまで到達しているが、本発明は、凹部の縁4cを被覆することさえできれば、これに限られない。例えば、図8に示すように、被覆部5dが凹部の底面4bまで到達しない場合でも構わない。図8の構成を採用した場合には、バンク材料を凹部底面まで流さなくてもよいので、熱処理の温度および時間を低温かつ短時間にすることができる。
(4)図6(a)では、バンク材料12の斜面の下端と凹部の縁4cとが一致しているが、必ずしもこのようになるとは限らない。バンク材料によっては、図9(a)に示すように、バンク材料12の斜面が後退することにより、凹入されていない領域4eの一部が露出する場合もある。この場合でも、バンク材料12に適切に熱処理を施すことにより、凹部の縁4cをバンク材料の一部で覆わせることとすればよい(図9(b)参照)。
(5)上記実施形態では、電荷注入輸送層としてホール注入層4のみが第1電極と発光層との間に介挿されているが、本発明は、これに限られない。例えば、図10に示すように、ホール注入層4上にホール輸送層13が形成され、これらが電荷注入輸送層として介挿されることとしてもよい。この場合、ホール輸送層13の上面に凹部が形成されることになり、ホール輸送層に形成された凹部の縁が被覆部で覆われることになる。
(6)上記実施形態では、第1電極2をAg薄膜で形成しているので、ITO層3をその上に形成することとしている。第1電極2をAl系にしたときは、ITO層3を無くして陽極を単層構造にすることができる。
(7)上記実施形態では、発光素子を複数備えた発光装置として、有機ELディスプレイを例に挙げて説明しているが、本発明はこれに限らず、照明装置等にも適用可能である。
(8)上記実施形態では、所謂、ピクセルバンク(井桁状バンク)を採用しているが、本発明は、これに限らない。例えば、ラインバンク(ライン状のバンク)を採用することができる。図11の例では、ラインバンク65が採用されており、X軸方向に隣接する発光層66a,66b,66cが区分けされる。なお、図11に示すように、ラインバンク65を採用する場合には、Y軸方向に隣接する発光層同士はバンク要素により規定されていないが、駆動方法および陽極のサイズおよび間隔などを適宜設定することにより、互いに影響せず発光させることができる。
(9)上記実施形態では、トップエミッション型で説明しているが、これに限定されず、ボトムエミッション型であっても良い。
(10)上記実施形態では、発光層と第2電極との間に電子注入層のみが介挿されているが、これに加えて電子輸送層が介挿されていることとしてもよい。
2 第1電極
3 ITO層
4 ホール注入層
4a 凹部
4b 凹部の底面
4c 凹部の縁
4d 凹部の側面
4e ホール注入層の上面において凹入されていない領域
5 バンク
5a,5b バンクの底面
5c バンクの底面のレベル
5d 被覆部
6 発光層
7 電子注入層
8 第2電極
9 封止層
10a,10b,10c 有機EL素子
11 薄膜
12 バンク材料層
13 ホール輸送層
55 ピクセルバンク
55a バンク要素
55b バンク要素
56a1,56a2,56b1,56b2,56c1,56c2 発光層
65 ラインバンク
66a,66b,66c 発光層
100 有機ELディスプレイ
Claims (11)
- 第1電極と第2電極との間に、少なくとも電荷注入輸送層と発光層との積層体が介挿され、かつ、バンクで規定された領域に前記発光層が存する発光素子であって、
前記電荷注入輸送層は、前記バンクで規定された領域においては上面が沈下した凹入構造に形成され、
前記電荷注入輸送層の凹入構造における凹部の縁は、前記バンクの一部で被覆されていること
を特徴とする発光素子。 - 前記電荷注入輸送層を構成する材料は、前記バンクを形成するときに用いられる液体により浸食される材料であることを特徴とする請求項1に記載の発光素子。
- 前記電荷注入輸送層を構成する材料は、金属の酸化物、窒化物または酸窒化物であることを特徴とする請求項1に記載の発光素子。
- 前記バンクの一部は、前記電荷注入輸送層の凹入構造における凹部の底面まで達し、前記バンクの側面は、前記凹部底面への到達点から頂点にかけて上り斜面になっていることを特徴とする請求項1に記載の発光素子。
- 前記バンクの一部は、前記電荷注入輸送層の凹入構造における凹部の底面まで達していないことを特徴とする請求項1に記載の発光素子。
- 前記バンクは、絶縁性を有する材料を含むことを特徴とする請求項1に記載の発光素子。
- 前記発光層は、有機EL層であることを特徴とする請求項1に記載の発光素子。
- 前記電荷注入輸送層は、前記バンクの底面に沿って前記バンクの側方に延出していることを特徴とする請求項1に記載の発光素子。
- 前記電荷注入輸送層の凹部の縁は、前記電荷注入輸送層の上面において凹入されていない領域と前記凹部の側面とで形成された凸角部分であることを特徴とする請求項1に記載の発光素子。
- 請求項1から9の何れかに記載の発光素子を複数備えた発光装置。
- 第1電極と第2電極との間に、少なくとも電荷注入輸送層と発光層との積層体が介挿され、かつ、バンクで規定された領域に前記発光層が存する発光素子の製造方法であって、
電荷注入輸送層を形成する工程と、
前記電荷注入輸送層上にバンクを構成する材料からなるバンク材料層を形成する工程と、
前記バンク材料層の一部を除去して前記電荷注入輸送層の一部を露出させる工程と、
前記電荷注入輸送層上の前記バンク材料層の残留部に熱処理を施す工程と、
前記熱処理工程後、前記露出した電荷注入輸送層上に発光層を形成する工程とを含み、
前記電荷注入輸送層は、前記電荷注入輸送層の一部が露出した状態で用いられる液体により浸食される材料からなり、
前記電荷注入輸送層の露出面は、前記液体の浸食により前記バンク材料層の残留部底面のレベルから沈下した凹入構造に形成され、
前記熱処理工程では、前記バンク材料層の残留部に流動性を与えることにより、前記残留部から前記バンクを構成する材料を前記凹入構造の凹部の縁まで延出させること
を特徴とする発光素子の製造方法。
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JPWO2010092796A1 (ja) | 2012-08-16 |
US8866160B2 (en) | 2014-10-21 |
KR20110126594A (ko) | 2011-11-23 |
CN102272970A (zh) | 2011-12-07 |
EP2398084A4 (en) | 2013-03-27 |
US20110291086A1 (en) | 2011-12-01 |
EP2398084A1 (en) | 2011-12-21 |
CN102272970B (zh) | 2014-12-10 |
JP5357194B2 (ja) | 2013-12-04 |
EP2398084B1 (en) | 2018-06-06 |
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