JP3928944B2 - Organic EL display panel - Google Patents

Description

[0001]
The present invention relates to an organic EL (electroluminescence) display panel in which an organic layer including a light emitting layer is formed on a transparent substrate, and a method for manufacturing the same.
[0002]
[Prior art]
An organic EL display panel includes an anode made of a transparent electrode such as ITO on a transparent glass substrate, an organic layer including a light emitting layer made of an organic compound formed thereon, and a metal electrode such as Al formed thereon. An organic EL element formed with a cathode is used as a basic configuration, and an image is displayed by arranging the organic EL element as a unit surface light emitting element on a flat substrate.
[0003]
It is known that the characteristics of this organic EL display panel deteriorate when the organic layer and the electrode are exposed to the outside air. This is due to the phenomenon that moisture intrudes into the interface between the organic layer and the electrode, thereby preventing the injection of electrons, generating a dark spot as a non-light emitting region, or corroding the electrode. In order to improve stability and durability, a sealing technique for blocking the organic EL element from the outside air is indispensable. With respect to this sealing technique, a means is generally employed in which a sealing member covering the electrode and the organic layer is bonded to the transparent glass substrate on which the electrode and the organic layer are formed via an adhesive layer.
[0004]
A conventional example of an organic EL display panel in which a sealing member is bonded onto such a transparent glass substrate is shown in FIG. An organic layer 42 is formed on the glass substrate 41, and a sealing member 44 is bonded via an adhesive layer 43 so as to cover the organic layer 42. A pocket portion 44a is formed in the sealing member 44, and a desiccant 45 is disposed in the pocket portion 44a.
[0005]
The desiccant 45 is provided to absorb and remove the initial moisture present in the sealing member after the sealing member 44 is bonded and moisture that has been released or invaded over time. In particular, the organic layer is vulnerable to heat, and the initial moisture described above cannot be completely eliminated because the moisture cannot be completely removed by heat treatment before sealing. Therefore, it is indispensable to dispose such a desiccant 45 in the sealing member 44 in the panel using the current organic EL material. As the desiccant 45, CaO or BaO that chemically absorbs moisture, silica gel that physically absorbs moisture, or the like is used.
[0006]
[Problems to be solved by the invention]
According to the above-described conventional example, it is necessary to provide the sealing member with a pocket portion for loading the desiccant, and the thickness T for that purpose is required. Therefore, there is a problem that the thickness of the entire organic EL display panel is increased. is there. The organic EL display panel is expected to be used as a display of a portable information terminal such as a mobile phone and a PDA. The demand for a thin panel is particularly strong, and the desiccant is required to be as small as possible.
[0007]
On the other hand, as a desiccant, it absorbs the initial moisture present inside the sealing member immediately after sealing with the sealing member, moisture released by driving the organic EL display panel, and enters from the outside during use The continuous moisture absorption action is required. When the desiccant is made smaller, the moisture absorbing function of the desiccant is spent on the absorption of initial moisture, and the continuous moisture absorbing action on the moisture generated thereafter is diminished. There is a problem that the lifetime is significantly shortened.
[0008]
The present invention, which these circumstances to be one that is proposed to address, can achieve long life, yet an object to provide a method of manufacturing an organic EL display panel obtained a thin panel It is.
[0009]
[Means for Solving the Problems]
In order to achieve such an object, a method for manufacturing an organic EL display panel according to the present invention has the following features.
[0013]
The invention according to claim 1 covers a step of forming an organic layer on a transparent substrate, a step of forming an adhesive layer made of a photocurable resin around the organic layer by coating or printing, and the organic layer. In the method for manufacturing an organic EL display panel, which includes a step of adhering a sealing member to the transparent substrate with the adhesive layer, moisture is formed inside the sealing member by a photopolymerization reaction along an inner edge of the adhesive layer. A step of forming a layer of a photopolymerization initiator-containing resin that absorbs light by coating or printing, and a step of irradiating light to the adhesive layer and the layer of the photopolymerization initiator-containing resin. Curing and photopolymerization of the photopolymerization initiator-containing resin are performed simultaneously.
[0014]
According to a third aspect of the present invention, a first electrode, an organic layer, and a second electrode are formed on a transparent substrate, and a sealing member that covers the organic layer is formed by the adhesive layer formed around the organic layer. In the method for producing an organic EL display panel bonded to a substrate, a step of forming a photopolymerization initiator-containing resin layer that absorbs moisture by a photopolymerization reaction on the second electrode; Before adhering to the transparent substrate, the photopolymerization initiator-containing resin layer is irradiated with light to photopolymerize the photopolymerization initiator-containing resin, thereby at least the surface of the second electrode or the surface of the transparent substrate. And a step of absorbing water.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention having the above features will be described below.
[0016]
First, a photopolymerization initiator-containing resin that absorbs moisture by a photopolymerization reaction by light irradiation is disposed inside the sealing member of the organic EL display panel, and the sealing member is immediately after sealing by photopolymerizing the resin. It is designed to absorb the initial moisture inside. According to this, since the initial moisture can be removed immediately immediately after sealing, the influence of the subsequent moisture can be minimized, and the life of the organic EL display panel can be extended. Further, according to this, by quickly removing the initial moisture, the desiccant can be made as small as possible, and the organic EL display panel can be thinned.
[0017]
Second, the above-described photopolymerization initiator-containing resin is placed on the surface of the organic layer formed on the transparent substrate, and this is polymerized by light irradiation. As a method of light irradiation, the photopolymerization initiator-containing resin formed on the surface of the organic layer may be directly irradiated with light and then sealed with a sealing member, or when a transparent sealing member is used. Can also be irradiated with light after sealing with a sealing member. According to this, since moisture is absorbed on the surface of the organic layer on which the photopolymerization initiator-containing resin is arranged, it is possible to effectively remove moisture on the surface of the organic layer before sealing or immediately after sealing. become. Therefore, similarly to the above-described embodiment, the influence of the subsequent moisture can be minimized, the life of the organic EL display panel can be extended, and the initial moisture can be removed quickly to remove the desiccant. Can be made as small as possible, and the organic EL display panel can be made thinner.
[0018]
Thirdly, in the above-described embodiment, the layer of the photopolymerization initiator-containing resin is formed along the adhesive layer. According to this, in particular, in the case where the sealing member is formed of a transparent member, the light irradiation process can be performed efficiently, for example, the adhesive layer and the photopolymerization initiator-containing resin layer can be simultaneously irradiated with light. It becomes possible to do.
[0019]
Fourth, on the premise of the above-described embodiment, the sealing member is provided with a desiccant that physically or chemically absorbs moisture inside the sealing member. According to this, initial moisture immediately before or immediately after sealing can be effectively removed by moisture absorption by photopolymerization of the photopolymerization initiator-containing resin, so that only moisture that enters afterwards is placed inside the sealing member. It will be removed by the desiccant provided, and the size of the desiccant can be made as small as possible. Thereby, even a thin organic EL display panel can ensure a sufficient life.
[0020]
Fifth, the organic film formed on the transparent substrate is provided with a sealing film covering the organic film, and the above-described photopolymerization initiator-containing resin is disposed in the sealing film. Is photopolymerized. According to this, as in the above-described embodiment, it becomes possible to effectively remove moisture on the surface of the organic layer before or immediately after sealing, and to minimize the influence of moisture thereafter. In addition, it is possible to extend the life of the organic EL display panel, and it is possible to reduce the desiccant as much as possible by quickly removing the initial moisture, and to reduce the thickness of the organic EL display panel. Further, since the sealing film is used, an organic EL display panel having flexibility as a whole can be formed by using the transparent substrate and the sealing film as flexible materials.
[0021]
Sixth, there is a method for manufacturing an organic EL display panel, in which a layer of a photopolymerization initiator-containing resin that absorbs moisture by a photopolymerization reaction along an inner edge of the adhesive layer is provided inside a sealing member. It is formed by coating or printing, and the adhesive layer and the photopolymerization initiator-containing resin layer are simultaneously irradiated with light. According to this, the initial moisture can be absorbed by the above-described photopolymerization when the adhesive is cured in the sealing step, and it is not necessary to add a new light irradiation step for the initial moisture absorption.
[0022]
Seventh, on the premise of the manufacturing method according to the sixth embodiment, the sealing member is a transparent member, the photopolymerization initiator-containing resin layer is formed on the inner surface of the sealing member, and the inner sealing is performed. A desiccant that physically or chemically absorbs internal moisture is attached to the inner surface of the member, and ultraviolet rays are irradiated through the sealing member. According to this, it is possible to cure the adhesive and photopolymerize the photopolymerization initiator-containing resin with a single UV irradiation, and the desiccant acts as a mask. The organic layer does not deteriorate. In addition, since the photopolymerization initiator-containing resin layer is provided on the sealing member side, the dead space on the transparent substrate is eliminated and the display area can be effectively secured.
[0023]
Eighth is a method for manufacturing an organic EL display panel, in which a first electrode, an organic layer, and a second electrode are formed on a transparent substrate, and the organic layer is sealed with a sealing member. The above-described photopolymerization initiator-containing resin layer is formed on the two electrodes, and after this is photopolymerized, sealing is performed with a sealing member. According to this, immediately before sealing, it becomes possible to quickly absorb moisture on the surface of the second electrode or the surface of the transparent substrate around it.
[0024]
【Example】
Embodiments of the present invention will be described below with reference to the drawings. 2A and 2B are explanatory views of an organic EL display panel according to an embodiment of the present invention, in which FIG. 2A is a plan view and FIG. 2B is an XX cross-sectional view. In the figure, an organic layer 2 is disposed on a glass substrate 1. The organic layer 2 is formed on a positive electrode (first electrode; not shown) made of a transparent electrode such as ITO formed on the glass substrate 1, for example, a hole injection layer made of copper phthalocyanine, a hole made of TDP, or the like. A transport layer, a light emitting layer or electron transport layer made of Alq ₃ or the like, and an electron injection layer made of LiO ₂ are laminated, and an anode made of Al or the like (second electrode; not shown) is laminated thereon. It is what is done.
[0025]
A glass sealing member 4 is bonded to the glass substrate 1 via an adhesive layer 3. The adhesive layer 3 is formed of an ultraviolet curable resin such as an epoxy resin, and is formed so as to surround the organic layer 2. A desiccant 5 is attached to the inner surface 4 a of the sealing member 4. The desiccant 5 may be either one that chemically adsorbs moisture such as CaO or BaO, or one that physically adsorbs moisture such as silica gel.
[0026]
According to this embodiment, the initial moisture absorbent layer 6 is formed on the inner surface 4 a of the sealing member 4 along the inner side of the adhesive layer 3. The initial moisture absorbent layer 6 is made of a photopolymerization initiator-containing resin that absorbs moisture by a photopolymerization reaction. For example, an epoxy resin and a radical or cationic photopolymerization initiator are suitable. Here, as the radical photopolymerization initiator, for example, diethoxyacetophenone, benzophenone, benzyl, benzoin isobutyl ether, benzyl dimethyl ketal, 1-hydroxycyclohexyl phenyl ketone, diethyl thioxanthone, 2-ethylanthraquinone, 2-hydroxy- 2-methyl-1-phenylpropan-1-one, 1- (4-isopropylphenyl) -2-hydroxy-2-methylpropan-1-one, 2-methyl- [4- (methylthio) phenyl] -2- Morpholino-1-propane or the like can be used. As the cationic photopolymerization initiator, aromatic diazonium salts, triallyl sulfonium salts, diallyl iodonium salts, triallyl selenium salts, metallocene compounds, etc. of Lewis acids can be used.
[0027]
Next, the manufacturing method of the organic EL display panel according to this embodiment will be described with reference to FIG. FIG. 2A shows a state in which the organic layer 2 is formed on the glass substrate 1. The organic layer 2 is formed by forming a transparent electrode made of ITO or the like on the glass substrate 1 as an anode, and sequentially forming a hole injection layer, a hole transport layer, a light emitting layer, an electron transport layer, an electron injection layer, etc. Lamination is performed by vacuum deposition, and an electrode made of Al or the like serving as a cathode is further deposited thereon.
[0028]
FIG. 2B shows a state in which the adhesive layer 3, the desiccant 5, and the initial moisture absorbent layer 6 are formed on the sealing member 4. The adhesive layer 3 is formed on the adhesion surface of the sealing member 4 by a printing technique such as application by a dispenser or the like or screen printing. The desiccant 5 is adhered to the inner surface 4a of the sealing member 4 as a thin film by mixing it in the resin or applying an adhesive to one surface of the solidified state. Then, the initial moisture absorbent layer 6 is obtained by applying or printing a mixture of the above-described resin and a photopolymerization initiator on the inner surface 4 a of the sealing member 4, and a desiccant along the inner side of the adhesive layer 3. 5 is formed so as to surround 5.
[0029]
And as shown to the figure (c), by installing the sealing member 4 on the glass substrate 1 so that the organic layer 3 may be covered, and irradiating an ultraviolet-ray like an arrow through the sealing member 4, The adhesive layer 3 is cured and the initial moisture absorbent layer 6 is photopolymerized to absorb the initial moisture immediately after sealing.
[0030]
According to this, the initial moisture absorbent layer 6 acts immediately after sealing the periphery of the organic layer 2 with the sealing member 4, and can effectively remove the initial moisture present in the sealing member 4. . By the removal of the initial moisture, moisture released into the space in the sealing member 4 afterwards (after the organic EL display panel is driven and the inside of the panel surrounded by the sealing member 4 becomes a high temperature environment) Since it can be reduced, it is possible to set the continuous moisture absorption action of the desiccant 5 low. As a result, the total amount of the desiccant 5 can be reduced, and a sufficient panel life can be ensured even with the thin-film desiccant 5 as described above. And since it is not necessary to provide a pocket part like a prior art by making the desiccant 5 into a thin film, thickness reduction of a panel can be achieved.
[0031]
In the above-described embodiment, the sealing member 4 is made of glass and the initial moisture absorbent layer 6 is formed along the inner side of the adhesive layer 3, and the desiccant 5 is adhered to the inner side. Thereby, it is possible to simultaneously cure the adhesive layer 3 and photopolymerize the initial moisture adsorbent layer 6 by irradiating ultraviolet rays from the sealing member 4 side, and the desiccant 5 serves as a mask. Even if a mask is not separately provided, the organic layer 2 is not irradiated with ultraviolet rays and does not deteriorate. By providing the initial moisture adsorbent layer 6 on the sealing member 4 side, a display area can be effectively ensured without creating a dead space on the glass substrate 1 side.
[0032]
Moreover, when the sealing member 4 is made of glass, a considerable weight reduction can be achieved as compared with a conventional metal sealing can.
[0033]
In the above-described embodiment, the desiccant 5 is provided. However, when the initial moisture is almost completely removed by the initial moisture absorbent layer 6, the moisture that enters from the outside is enhanced to enhance the sealing effect. If this is eliminated, it is possible to ensure the required panel life without providing the desiccant 5. In this case, since the thickness of the sealing member 4 can be further reduced, a thinner panel can be formed.
[0034]
According to the above-described embodiment, the adhesive layer 3 and the initial moisture adsorbent layer 6 are disposed on the sealing member 4 side, but one or both of them are disposed on the glass substrate 1 side. However, it is possible to achieve the effects of extending the life and thickness of the panel described above.
[0035]
Hereinafter, an embodiment in which an initial moisture adsorbent layer is formed on the glass substrate side will be described with reference to the drawings.
[0036]
FIG. 4 is an explanatory diagram of an organic EL display panel according to the embodiment. The same parts as those in the above-described embodiment are denoted by the same reference numerals, and a part of the description is omitted. Here, the initial moisture absorbent layer 6 is formed so as to cover the surface of the anode (second electrode) in the organic layer 2 formed on the glass substrate 1. By covering the organic layer 2 in an airtight manner, the initial moisture absorbent layer 6 can also be used as a sealing material. However, when the organic layer 2 is surely sealed, a sealing member is further provided thereon. Cover and perform hermetic sealing. In this embodiment, the initial moisture absorbent layer 6 can adsorb moisture on the surface of the organic layer 2 (the surface of the second electrode) or on the glass substrate around the organic layer 2.
[0037]
FIG. 5 is an explanatory view showing a method for manufacturing an organic EL display panel according to this embodiment. As shown in FIG. 2A, after the initial moisture absorbent layer 6 is applied on the surface of the anode (second electrode) in the organic layer 2, the initial moisture absorbent layer 6 made of a photopolymerization initiator-containing resin is applied. Irradiation with ultraviolet rays is performed to photopolymerize the photopolymerization initiator-containing resin, and before the sealing member is bonded to the glass substrate 1, moisture on the anode in the organic layer 2 and the surrounding glass substrate 1 is removed. And as shown in the figure (b), the sealing member 4 is covered so that this initial moisture absorbent layer 6 may be covered, and it is made to adhere to the glass substrate 1 with the adhesive layer 3. FIG. A thin film desiccant 5 is attached to the inside of the sealing member 4 as in the above-described embodiment.
[0038]
According to such an embodiment, the initial moisture absorbent layer 6 acts immediately before sealing the periphery of the organic layer 2 by the sealing member 4, and the organic layer 2 on the surface (the surface of the second electrode) or the organic layer 2 The initial moisture on the peripheral glass substrate 1 can be effectively removed. By the removal of the initial moisture, moisture released into the space in the sealing member 4 afterwards (after the organic EL display panel is driven and the inside of the panel surrounded by the sealing member 4 becomes a high temperature environment) Since it can be reduced, it is possible to set the continuous moisture absorption action of the desiccant 5 low. As a result, the total amount of the desiccant 5 can be reduced, and a sufficient panel life can be ensured even with the thin-film desiccant 5 as described above. And since it is not necessary to provide a pocket part like a prior art by making the desiccant 5 into a thin film, thickness reduction of a panel can be achieved.
[0039]
FIG. 6 is an explanatory view showing another embodiment in which an initial moisture absorbent layer is formed on the glass substrate side. In this embodiment, the initial moisture absorbent layer 6 is formed in the peripheral portion on the organic layer 2 formed on the glass substrate 1. And as the sealing member 4, a transparent member (made of glass or the like) is used, and an adhesive layer 3 of a photocurable resin is formed on the adhesive surface, and a thin-film desiccant 5 is attached near the center of the inside. Has been.
[0040]
In this embodiment, after forming the initial moisture absorbent layer 6, the sealing member 6 is installed on the glass substrate 1. And the ultraviolet-ray irradiation is performed to the adhesive layer 3 which consists of the initial stage moisture absorber layer 6 and photocurable resin through the sealing member 6. FIG. At this time, the initial moisture absorbent layer 6 is formed so as to avoid the position of the desiccant 5, and the desiccant 5 acts as a mask so that only the initial moisture absorbent layer 6 and the adhesive layer 3 are irradiated with ultraviolet rays. Can be irradiated.
[0041]
According to this embodiment, curing of the adhesive layer 3 and photopolymerization of the initial moisture adsorbent layer 6 can be performed simultaneously by irradiating ultraviolet rays from the sealing member 4 side, and the desiccant 5 acts as a mask. Therefore, the organic layer 2 is not irradiated with ultraviolet rays without causing a deterioration without providing a separate mask. In the case of this embodiment, immediately after the periphery of the organic layer 2 is sealed by the sealing member 4, the initial moisture absorbent layer 6 acts to act on the surface of the organic layer 2 (the surface of the second electrode) or the organic layer. 2 Since the initial moisture on the peripheral glass substrate 1 can be effectively removed, the effect of extending the life and thickness of the panel can be expected as in the above-described embodiments.
[0042]
FIG. 7 is an explanatory view showing still another embodiment. In this embodiment, a transparent film-like sealing film 7 is provided in place of the sealing member 4. The sealing film 7 is made of, for example, nitrides (SiN, AlN, GaN, BN, etc.), oxides (SiO, Al ₂ O ₃ , Ta ₂ O ₅ , ZnO, Y ₂ O ₃ , GeO, etc.), oxides, etc. Organic materials such as nitrides (SiON), carbonitrides (SiCN), and metal fluorine compounds include epoxy resins, acrylic resins, polyparaxylene resins, fluorine resins (perfluoroolefin, perfluoroether, tetrafluoroethylene, chloro Trifluoroethylene, dichlorodifluoroethylene), metal alkoxides (CH ₃ OM, C ₂ H ₅ OM, etc.), polyimide precursors, perylene compounds, and the like can be used as materials.
[0043]
In this embodiment, the initial moisture absorbent layer 6 is formed on the surface of the anode (second electrode) in the organic layer 2 formed on the substrate, and then the sealing film 7 is placed thereon to make the inside airtight. . Then, ultraviolet rays are irradiated through the sealing film 7 to photopolymerize the photopolymerization initiator-containing resin in the sealing film 7. Also by this, the initial moisture absorbent layer 6 acts immediately after the periphery of the organic layer 2 is sealed with the sealing film 7 as in the above-described embodiment, and the surface of the organic layer 2 (the surface of the second electrode). Since the initial moisture on the glass substrate 1 on the top or the periphery of the organic layer 2 can be effectively removed, the effect of extending the life and thinning of the panel can be expected as in the above embodiments.
[0044]
In addition, by using a transparent film substrate having flexibility instead of the glass substrate 1 and using a flexible film as the sealing film 7, flexibility can be imparted to the entire display panel.
[0045]
【The invention's effect】
The present invention is configured as described above, and an initial moisture absorbent made of a photopolymerization initiator-containing resin that absorbs moisture by a photopolymerization reaction is disposed in a sealing member, and acts before and after sealing. Therefore, it is possible to quickly remove the initial moisture in the sealing member, on the organic layer or on the substrate around the organic layer, to achieve a long life of the organic EL display panel, and to achieve the conventional desiccant. Can be made as small as possible, and a thin panel can be achieved.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing a conventional organic EL display panel.
FIG. 2 is an explanatory view (plan view and sectional view) showing an organic EL display panel according to an embodiment of the present invention.
FIG. 3 is an explanatory view showing a method of manufacturing an organic EL display panel according to an embodiment of the present invention.
FIG. 4 is an explanatory view showing an organic EL display panel according to another embodiment of the present invention.
FIG. 5 is an explanatory view showing a method of manufacturing an organic EL display panel according to another embodiment of the present invention.
FIG. 6 is an explanatory view showing an organic EL display panel and a manufacturing method thereof according to another embodiment of the present invention.
FIG. 7 is an explanatory view showing an organic EL display panel according to another embodiment of the present invention (an example using a sealing film).
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Glass substrate 2 Organic layer 3 Adhesive layer 4 Sealing member 5 Desiccant 6 Initial moisture absorbent layer 7 Sealing film

Claims (3)

A step of forming an organic layer on the transparent substrate, a step of forming an adhesive layer made of a photocurable resin around the organic layer by coating or printing, and a sealing member covering the organic layer as the adhesive layer. In the manufacturing method of the organic EL display panel having the step of adhering to the transparent substrate by
A step of forming a layer of a photopolymerization initiator-containing resin that absorbs moisture by a photopolymerization reaction along the inner edge of the adhesive layer inside the sealing member by coating or printing; the adhesive layer and the A method for producing an organic EL display panel, comprising the step of irradiating light to a layer of a photopolymerization initiator-containing resin, wherein the curing of the adhesive layer and the photopolymerization of the photopolymerization initiator-containing resin are simultaneously performed. . A desiccant that uses the sealing member as a transparent member, forms a layer of the photopolymerization initiator-containing resin on the inner surface of the sealing member, and physically or chemically absorbs moisture inside the inner surface of the sealing member The method for manufacturing an organic EL display panel according to claim 1 , wherein ultraviolet rays are irradiated through the sealing member. An organic EL formed by forming a first electrode, an organic layer, and a second electrode on a transparent substrate, and bonding a sealing member covering the organic layer to the transparent substrate with an adhesive layer formed around the organic layer In the manufacturing method of the display panel,
A step of forming a layer of a photopolymerization initiator-containing resin that absorbs moisture by a photopolymerization reaction on the second electrode; and before adhering the sealing member to the transparent substrate, the photopolymerization initiator-containing resin. And a step of absorbing water on at least the surface of the second electrode or the surface of the transparent substrate by irradiating the layer with light to photopolymerize the resin containing the photopolymerization initiator. Manufacturing method of EL display panel.

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