ЭЛЕКТРОННОЕ УСТРОЙСТВО, СОДЕРЖАЩЕЕ ОРГАНИЧЕСКИЕ МАТЕРИАЛЫ

OELD und Verfahren zu dessen Herstellung

Es wird ein organisches Elektrolumineszenzbauteil mit Folgendem angegeben: einem ersten Substrat (101) mit einer Anzahl von Pixelbereichen (P); einem Dünnschichttransistor auf dem ersten Substrat und in jedem Pixelbereich; einem zweiten Substrat (102), das dem ersten Substrat zugewandt ist; einer organischen Elektrolumineszenzdiode (E) auf dem zweiten Substrat, die mit dem Dünnschichttransistor verbunden ist; einem Abdichtungsmuster (160) an den Rändern des ersten und des zweiten Substrats; und einer Klebeschicht (200) mit einer Anzahl leitender Kügelchen (210), die den durch das erste Substrat, das zweite Substrat und das Abdichtungsmuster gebildeten Innenraum auffüllt.

Organische Elektrolumineszenzanzeige und Verfahren zu deren Herstellung

DUAL PANEL TYPE ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME

A dual panel type organic electroluminescent display device includes first and second substrates (210, 250) facing and spaced apart from each other, an array element layer (A) on an inner surface of the first substrate (210) and including a thin film transistor (T), a connection pattern (240) on the array element layer (A) and electrically connected to the thin film transistor (T), a first electrode (252) on an inner surface of the second substrate (250), a partition wall (256) on the first electrode (252) in a non-pixel area (NP) between adjacent pixel areas (P), an organic light-emitting layer (258) on the first electrode (252) in the pixel area (P), a second electrode (260) on the organic light-emitting layer (258) in the pixel area (P) and electrically connected to the connection pattern (240), a moisture absorption layer (262) on the partition wall (256), and a seal pattern (270) between the first and second substrates (210, 250) along a peripheral portion.

Organic electroluminescent display device with corrosion-tolerant electrodes

An electroluminescent display device includes first and second substrates (101, 171) facing each other and having a display area (DA) and a non-display area (NA) surrounding the display area (DA). An array element is formed on the first substrate (101) and an electroluminescent diode (E) is formed on the second substrate (171). The electroluminescent display device further includes gate and data pad electrodes (111, 138) in the non-display area (NA). The exposed portions of the gate and data pad electrodes (111, 138) are formed of a conductive material having a tolerance to corrosion.

Organic electroluminescent device and method of fabricating the same

An organic electroluminescent device includes first and second substrates (100, 200) facing and spaced apart from each other, the first and second substrates (100, 200) including a pixel region (p); a gate line on an inner surface of the first substrate; a data line crossing the gate line; a switching thin film transistor connected with the gate line and the data line; a driving thin film transistor (TD) connected with the switching thin film transistor; a power line connected with the driving thin film transistor (TD); a first electrode (202) on an inner surface of the second substrate (200); a first sidewall and a second sidewall (206) on the first electrode (202) at a boundary of the pixel region (P), the first sidewall and the second sidewall (206) spaced apart from each other; an electroluminescent layer (208) on the first electrode (202) in the pixel region (P); a second electrode (210) on the electroluminescent layer (208) in the pixel region (P); a connection electrode (124) electrically ...

Display apparatus and multi display apparatus including the same

A display apparatus comprising a first substrate 100 with pixel areas in a display portion and a second substrate coupled to the first substrate, wherein a routing portion is disposing on the outer surface of both substrates. The first substrate has a dam 105 at the edge of the display portion and a trench pattern portion TPP, located near the dam pattern, which acts to isolate a light emitting device layer ED located in the pixel areas and on the dam. A common electrode CE may also be disposed on the dam and isolated by the trench pattern. There may be an inner trench TPPa that overlaps three layers of encapsulation 106a-106c, and an outer trench TPPb which overlaps the first and third encapsulation layers. The trench patterns may utilise an undercut and/or eaves/tip structure to isolate the device layers. The display may form part of a multi-display apparatus.

Display apparatus

Provided is a display apparatus which can easily bond a drive panel ( 10 ) and a sealing panel ( 20 ) together. The drive panel ( 10 ) includes organic electroluminescence devices ( 10 R), ( 10 G) and ( 10 B) on a substrate for drive ( 11 ) and extracts light from the side of the organic electroluminescence devices ( 10 R), ( 10 G) and ( 10 B). The sealing panel ( 20 ) includes a color filter ( 22 ) on a substrate for sealing ( 21 ). The drive panel ( 10 ) and the sealing panel ( 20 ) are disposed to face each other, and the whole facing surfaces of the drive panel ( 10 ) and the sealing panel ( 20 ) are bonded together with an adhesive layer ( 30 ). The adhesive layer ( 30 ) is cured with at least heat, and is made of only one coating liquid or a combination of two or more coating liquids for curing. A temporary fixing portion ( 30 A) is formed in an edge portion of the adhesive layer ( 30 ). The temporary fixing portion ( 30 A) is made of, for example, an ultraviolet cure resin, andis ...

ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND ITS MANUFACTORING PROCESS

유기 EL 표시 장치

... 표시 영역 내에 매트릭스 형상으로 배치된 화소의 각각에 형성된 도전성 무기 재료를 포함하는 하부 전극(131)과, 하부 전극에 접하고, 발광하는 발광층을 포함하는 복수의 상이한 유기 재료의 층을 포함하는 발광 유기층(132)과, 발광 유기층에 접하고, 표시 영역의 전체를 덮도록 형성되고, 도전성 무기 재료를 포함하는 상부 전극(133)과, 상부 전극에 접하고, 표시 영역의 전체를 덮도록 형성되고, 도전성 유기 재료를 포함하는 도전성 유기층(134)을 구비한다.

Organic Electro luminescence Device and fabrication method thereof

THREE-DIMENSIONAL ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF

According to the present invention, disclosed are a three-dimensional organic electroluminescence display device capable of improving durability, and a manufacturing method thereof. According to an embodiment of the present invention, the three-dimensional organic electroluminescence display device comprises: a first organic electric field panel including a first driving thin film transistor and a first electroluminescence device, and realizing a first image; a second organic electric field panel transmitting the first image, including a second driving thin film transistor and a second organic electroluminescence device, and realizing a second image; an attaching layer attaching the first and second organic electric field panels; and a conductive filler interposed between the first and second organic electric field panels. COPYRIGHT KIPO 2018 ...

Organic electroluminescent display device and fabricating method thereof

An electroluminescent display device includes first and second substrates facing each other and having a display area and a non-display area surrounding the display area. An array element is formed on the first substrate and an electrolumiscent diode is formed on the second substrate. The electroluminescent display device further includes gate and data pad electrodes in the non-display area. The exposed portions of the gate and data pad electrodes are formed of a conductive material having a tolerance to corrosion.

Organic light emitting display device and method of manufacturing the same

An organic light emitting display device that is capable of preventing the permeation of moisture by changing a sealing structure, thereby preventing the degradation of pixels and thus improving look-and-feel characteristics and a method of manufacturing the same are disclosed. The organic light emitting display device includes a first substrate and a second substrate being opposite to each other, the first substrate and the second substrate having a display region defined in the middle thereof and a non-display region defined at the edge thereof, respectively, a plurality of gate lines and data lines formed at the display region on the first substrate, the gate lines and the data lines crossing each other to define a pixel region, a thin film transistor formed at each of the intersections between the gate lines and data lines, an organic light emitting layer formed on the second substrate corresponding to the pixel region, and first and second electrodes located above and below the organic ...

Light emitting device and manufacturing method of the same

The present invention is directed to a light emitting device structured so as to increase the amount of light which is taken out in a certain direction after emitted from a light emitting element, and a method of manufacturing this light emitting device. An upper end portion of an insulating material 19 that covers an end portion of a first electrode 18 is formed to have a curved surface having a radius of curvature, a second electrode 23a is formed to have a slant face as going from its center portion toward its end portion along the curved surface. Light emitted from a light emitting layer comprising an organic material 20 that is formed on the second electrode 23a is reflected at the slant face of the second electrode 23a to increase the total amount of light taken out in the direction indicated by the arrow in FIG. 1A.

Display apparatus

Provided is a display apparatus which can easily bond a drive panel ( 10 ) and a sealing panel ( 20 ) together. The drive panel ( 10 ) includes organic electroluminescence devices ( 10 R), ( 10 G) and ( 10 B) on a substrate for drive ( 11 ) and extracts light from the side of the organic electroluminescence devices ( 10 R), ( 10 G) and ( 10 B). The sealing panel ( 20 ) includes a color filter ( 22 ) on a substrate for sealing ( 21 ). The drive panel ( 10 ) and the sealing panel ( 20 ) are disposed to face each other, and the whole facing surfaces of the drive panel ( 10 ) and the sealing panel ( 20 ) are bonded together with an adhesive layer ( 30 ). The adhesive layer ( 30 ) is cured with at least heat, and is made of only one coating liquid or a combination of two or more coating liquids for curing. A temporary fixing portion ( 30 A) is formed in an edge portion of the adhesive layer ( 30 ). The temporary fixing portion ( 30 A) is made of, for example, an ultraviolet cure resin, and is ...

SWITCH UNIT, DISPLAY PANEL, MANUFACTURING METHOD THEREOF, AND DISPLAY APPARATUS

The present disclosure is related to a display panel. The display panel may include a plurality of switch units. Each of the plurality of the switch units may include a first electrode; a second electrode; a third electrode; a fourth electrode opposite the first electrode; a piezoelectric material layer between the first electrode and the fourth electrode; a connecting electrode above the fourth electrode and electrically insulated from the fourth electrode; and a driving transistor comprising a driving gate. The driving gate may be the third electrode. An orthogonal projection of the second electrode and an orthogonal projection of the third electrode on a plane of the connecting electrode may overlap the connecting electrode respectively. 1. A display panel , comprising:a plurality of switch units,each of the plurality of the switch units, comprising:a first electrode;a second electrode;a third electrode;a fourth electrode opposite the first electrode;a piezoelectric material layer between the first electrode and the fourth electrode;a connecting electrode between the second electrode/the third electrode and the fourth electrode; anda driving transistor comprising a driving gate and the driving gate being the third electrode;wherein an orthogonal projection of the second electrode and an orthogonal projection of the third electrode on a plane of the connecting electrode overlap the connecting electrode respectively and there is a first distance respectively between the second electrode and the connecting electrode and between the third electrode and the connecting electrode along a direction perpendicular to the plane of the connecting electrode, andwherein the driving transistor is configured to drive an OLED component to emit light.2. The display panel according to claim 1 , further comprising:a first substrate;a second substrate opposite the first substrate; anda plurality of sub-pixel units controlled by the plurality of the switch units respectively,wherein ...

Light-emitting device

It is an object of the present invention to provide a light-emitting device where periphery deterioration can be prevented from occurring even when an organic insulating film is used as an insulating film for the light-emitting device. In addition, it is an object of the present invention to provide a light-emitting device where reliability for a long period of time can be improved. A structure of an inorganic film, an organic film, and an inorganic film is not continuously provided from under a sealing material under a cathode for a light-emitting element. In addition, penetration of water is suppressed by defining the shape of the inorganic film that is formed over the organic film even when a structure of an inorganic film, an organic film, and an inorganic film is continuously provided under a cathode for a light-emitting element.

ELECTROLUMINESCENT DISPLAY DEVICE

An electroluminescent display device includes a substrate on which a display area and a non-display area are defined. A thin film transistor is in the display area on the substrate. A light-emitting diode is connected to the thin film transistor and includes a first electrode, a light-emitting layer and a second electrode. A first link line is disposed in the non-display area and applies a first voltage to the first electrode. A second link line is spaced apart from the first link line in the non-display area. A conductive pattern is disposed in the non-display area and is connected to the second electrode to apply a second voltage. The conductive pattern has an opening corresponding to the first link line. 1. A method , comprising:forming thin film transistors and light-emitting diodes in a display area of a substrate of an electroluminescent display, each light-emitting diode including a first electrode, a light-emitting layer and a second electrode;forming a first link line in a non-display area surrounding the display area, the first link line configured to provide a first voltage to the first electrode;forming a second link line spaced apart from the first link line in the non-display area;forming a conductive pattern in the non-display area overlapping the first and second link lines and coupled to the second electrode; andforming an opening in the conductive pattern over the first link line to provide a first overlap of the conductive pattern with the first link line that is smaller than a second overlap of the conductive pattern with the second link line.2. The method of further comprising providing a second voltage over the conductive pattern to the second electrode claim 1 , the second voltage having a magnitude that is smaller than a magnitude of the first voltage.3. The method of further comprising forming an insulating layer between each of the first and second link lines and the conductive pattern claim 1 , the insulating layer having an edge and a ...

Method of creating an electroluminescent device

Organic electroluminescent device and method of fabricating the same

An organic electroluminescent device includes first and second substrates (100, 200) facing and spaced apart from each other, the first and second substrates (100, 200) including a pixel region (p); a gate line on an inner surface of the first substrate; a data line crossing the gate line; a switching thin film transistor connected with the gate line and the data line; a driving thin film transistor (TD) connected with the switching thin film transistor; a power line connected with the driving thin film transistor (TD); a first electrode (202) on an inner surface of the second substrate (200); a first sidewall and a second sidewall (206) on the first electrode (202) at a boundary of the pixel region (P), the first sidewall and the second sidewall (206) spaced apart from each other; an electroluminescent layer (208) on the first electrode (202) in the pixel region (P); a second electrode (210) on the electroluminescent layer (208) in the pixel region (P); and a connection electrode (124) ...

OLED display

An organic electroluminescent device (100) includes a first substrate (101) including plurality of pixel regions (P); a thin film transistor(DTr) on the first substrate and in each pixel region; a second substrate (102) facing the first substrate; an organic electroluminescent diode (E) on the second substrate and connected to the thin film transistor; a seal pattern (160) at edges of the first and second substrates; and an adhesive layer (200) including a plurality of conductive balls (210), an inner space defined by the first substrate, the second substrate and the seal pattern filled with the adhesive layer.

Organic electroluminescent display device and fabricating method thereof

Organic electroluminescence display device and method of fabricating the same

Micro display device and display integrated circuit

Dual panel type organic electroluminescent display device and method of fabricating the same

Organic electroluminescent device and method of fabricating the same

SENSORMATRIX AUS HALBLEITERBAUTEILEN

Organic electro-luminescence display device and method for fabricating the same

An organic electro-luminescence display device and a method for fabricating the same are provided. A first substrate and a second substrate are sealed by a sealant. An organic electro-luminescent diode is formed on the first substrate. The sealant contains a frit glass and a light-heat converter. The frit glass can reduce the moisture and oxygen transmission rate by preventing the organic electro-luminescent diode from being thermally decomposed during a curing process. Since the two substrates are encapsulated by the frit glass, the lifetime and reliability of the organic electro-luminescence display device can be increased.

Display panel and display device

Organic light-emitting device and manufacturing method thereof

Organic electroluminescent display device

An organic electroluminescent display device comprises a substrate including a display region, and a pad region in a periphery of the display region, the display region including a pixel region; a gate pad, a data pad and a power pad in the pad region, the gate pad, the data pad and the power pad electrically connected to a gate line, a data line and a power line, respectively; a first electrode in the pixel region, the first electrode connected to the driving thin film transistor; an organic electroluminescent layer on the first electrode; a second electrode over an entire surface of the substrate including the organic electroluminescent layer; a dummy pad in the pad region, the dummy pad electrically connected to at least one of the power line and the second electrode; and a ground pad in the pad region, the ground pad electrically connected to the second electrode.

ORGANIC DEVICE ELECTROLUMNINESCENT AND ITS MANUFACTORING PROCESS

Un dispositif électroluminescent organique comprend des premiers et deuxièmes substrats (100, 200), les premiers et deuxièmes substrats incluant une région à pixels "P"; une ligne de grille sur une surface intérieure du premier substrat (100); une ligne de données croisant la ligne de grille; un transistor en couche mince, de commutation, un transistor en couche mince de commande connecté au transistor en couche mince de commutation; une ligne d'alimentation connectée au transistor en couche mince de commande; une première électrode (202) sur une surface intérieure du deuxième substrat (200); une première paroi latérale et une deuxième paroi latérale sur la première électrode (202), à une frontière de la région à pixels "P", une couche électroluminescente sur la première électrode (202) dans la région à pixels "P"; une deuxième électrode (210) sur la couche électroluminescente dans la région à pixels "P"; et une électrode de connexion reliée électriquement au premier et au deuxième substrats ...

ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND ITS PROCESS DEFABRICATION

Un dispositif d'affichage électroluminescent comprend des premiers et deuxièmes substrats (101, 171) placés face l'un à l'autre et ayant une zone d'affichage (DA) et une zone de non affichage (NA) entourant la zone d'affichage (DA). Un élément en matrice est formé sur le premier substrat (101) et une diode électroluminescente (EL) est formée sur le deuxième substrat (171). Le dispositif comprend en outre des électrodes de plage de connexion de grille et de données situées dans la zone de non affichage (NA). Les parties exposées des électrodes de plage de connexion de grille et de données sont formées en un matériau conducteur ayant une tolérance à la corrosion. Application à un dispositif d'affichage électroluminescent organique (OELD) et un procédé de fabrication de celui-ci, permettant d'empêcher la corrosion de la zone de plage de connexion.

ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE HAS DOUBLE PANEL AND SONPROCEDE OF MANUFACTURE

Un dispositif d'affichage électroluminescent organique à double panneau comprend des premier (210) et second (250) substrats se faisant face; une couche de matrice d'éléments sur une surface interne du premier substrat (210) et comprenant un transistor à couches minces, un motif de raccordement sur la couche de matrice d'éléments et relié électriquement au transistor à couches minces. Il comprend en outre une première électrode sur une surface interne du second substrat, une cloison de séparation (256) sur la première électrode, une couche organique électroluminescente sur la première électrode dans la zone de pixels, une seconde électrode sur la couche organique électroluminescente, une couche d'absorption d'humidité (262) sur la cloison de séparation, et un motif d'étanchéité entre les premier et second substrats le long d'une partie périphérique.

ORGANIC DEVICE ELELCTROLUMINESCENT OF TYPE HAS DOUBLE PLATE AND ITS MANUFACTORING PROCESS

Dispositif d'affichage électroluminescent comportant des premier et second substrats (111, 151). Une couche d'émission organique (135) ayant une première épaisseur (t1) réside sur une première électrode (113) dans une zone de sous-pixel (SP) et une seconde électrode (140) réside sur la couche d'émission organique (135). Une couche formant élément de matrice réside sur le second substrat (151), la couche formant élément de matrice comportant un transistor à couches minces (TFT). Une première électrode (113) réside sur le premier substrat (111) et un séparateur (130) ayant un motif en forme de L réciproque à double couche réside sur la première électrode (113). Le séparateur comprenant des première et seconde parties sur la première électrode, chacune ayant des parties saillantes (125, 126) qui font saillie l'une vers l'autre et une zone (120a, b) qui est partiellement enfermée par les parties saillantes. Le séparateur ayant une structure double couche à deux plis, la couche de matériau émetteur ...

The organic electro-luminescence device and method for fabricating of the same

Adhesive shape organic Electroluminescence display

Dual Panel Type Organic Electroluminescent Device and Method for Fabricating the same

DUAL PANEL TYPE ORGANIC ELECTRO-LUMINESCENCE DEVICE AND A MANUFACTURING METHOD THEREOF, WHERE ARRAY ELEMENTS AND ORGANIC ELECTRO-LUMINESCENCE DIODES ARE FORMED ON DIFFERENT SUBSTRATES

PURPOSE: A dual panel type organic electro-luminescence device and a manufacturing method thereof are provided to enhance manufacturing yield and productivity of the organic electro-luminescence device by forming an array element and an electro-luminescence diode on different substrates. CONSTITUTION: An array element layer contains a TFT(Thin Film Transistor) and is formed on a first substrate. An electrical connection pattern is connected to the TFT on the array element layer. A color filter layer(236) is arranged at a lower portion of a second substrate, which faces the first substrate, and contains red, green, and blue color filters, which are sequentially-formed to represent minimal pixel regions. An over-coating layer(240) is made of a desiccant on an overall surface of the lower portion of the color filter layer(236). An organic electro-luminescence diode(E) is arranged at a lower operation of the over coating layer(240), and includes a first electrode, an organic light emitting ...

PERMEATION BARRIER ON FLEXIBLE DEVICE

A display device includes a first electrode formed on a first substrate, and a second electrode formed on a second substrate. An electro-optical material is sandwiched between the first and second electrodes. A protective layer has a first section formed over the second substrate, a second section formed over the first substrate, and a third section formed between the first and second sections. The third section conforms to the shape of sides of the electro-optical material, the second electrode, and the second substrate.

Back panel for flat panel display apparatus, flat panel display apparatus comprising the same, and method of manufacturing the back panel

A back panel for a flat panel display apparatus includes: a pixel electrode disposed on a substrate; a first gate electrode layer of a thin-film transistor (TFT) disposed on the substrate; a second gate electrode layer disposed on the first gate electrode layer and including a semiconductor material; a third gate electrode layer disposed on the second gate electrode layer and including a metal material; a first insulating layer disposed on the third gate electrode layer; an active layer disposed on the first insulating layer and including a transparent conductive oxide semiconductor; a second insulating layer disposed on the active layer; source and drain electrodes disposed connected to the active layer through the second insulating layer; and a third insulating layer covering the source and drain electrodes. The first gate electrode layer and the pixel electrode include a transparent conductive oxide.

METHOD FOR MANUFACTURING ACTIVE-MATRIX DISPLAY PANEL, AND ACTIVE-MATRIX DISPLAY PANEL

Manufacturing method including forming, over substrate, TFT layer, planarization layer, and display element in this order. Forming of TFT layer involves forming passivation layer to cover TFT layer electrode, such as upper electrode, and to come in contact with planarizing layer. Forming of display element involves forming bottom electrode to come in contact with planarizing layer. TFT layer electrode and bottom electrode are connected by: first forming, in planarizing layer, first contact hole exposing passivation layer at bottom thereof; then forming second contact hole exposing TFT layer electrode at bottom thereof through dry-etching passivation layer exposed at bottom of first contact hole using fluorine-containing gas; then forming liquid repellent film containing fluorine on passivation layer inner surface facing second contact hole; and forming bottom electrode along planarizing layer inner surface and passivation layer inner surface respectively facing first contact hole and second ...

Dual-plate organic electro-luminescent device and method for manufacturing the same

A dual plate organic electro-luminescent device includes a first substrate and a second substrate having pixel regions, wherein the first substrate and the second substrate facing each other, a thin film transistor on the first substrate in each of the pixel regions, a first electrode on the second substrate, a bus line on the first electrode in regions other than the pixel regions such that the bus line has a round shape at each corner portion of each pixel region, barrier ribs on outside portions of the bus line so as to surround each of the pixel regions, an organic electro-luminescent layer on the first electrode in each of the pixel regions, a second electrode formed on the barrier rib and the organic electro-luminescent layer in each of the pixel regions, and a connection pattern connecting the thin film transistor and the second electrode.

DISPLAY DEVICE AND MANUFACTURING METHOD OF DISPLAY DEVICE

A display device includes a first substrate, pixel electrodes located in correspondence with pixels above the first substrate, a first partition covering ends of a group of the pixel electrodes, a second partition covering ends of another group of the pixel electrodes, the second partition being lower than the first partition, a solid filler located above the first partition and the second partition, and a second substrate facing the first substrate, the second substrate being away from the first substrate by a distance kept by the first partition, the second partition and the filler. 1. A display device , comprising:a first substrate;pixel electrodes located in correspondence with pixels above the first substrate;a first partition covering ends of a group of the pixel electrodes;a second partition covering ends of another group of the pixel electrodes, the second partition being lower than the first partition;a solid filler located above the first partition and the second partition; anda second substrate facing the first substrate, the second substrate being away from the first substrate by a distance kept by the first partition, the second partition and the filler.2. The display device according to claim 1 , wherein an area of the filler over the second partition is thicker than an area of the filler over the first partition.3. The display device according to claim 2 , wherein the first partition is located inner and outer to the second partition.4. The display device according to claim 3 , wherein the second partition is located in an annular shape.5. The display device according to claim 4 , further comprising a sealing member located around the filler.6. The display device according to claim 5 , wherein the second partition is located along the sealing member.7. The display device according to claim 1 , further comprising color filters located between the filler and the second substrate in correspondence with the pixels claim 1 , the color filters each ...

Biometric sensing device and display device

A biometric sensing device includes a first electricity storage component, a first sensing component, a first driving component and a control unit. The first sensing component is coupled with the first electricity storage component, wherein when the first sensing component is turned on, a charging path is formed between the first sensing component and the first electricity storage component, and the first sensing component makes the first electricity storage component be charged according to a sensed biometric. The first driving component is coupled with the first electricity storage component and the first sensing component, wherein when the first driving component is turned on, the first electricity storage component discharges. The control unit is coupled with the first sensing component and/or the first driving component for turning on the first sensing component and the first driving component.

Organic electroluminescent device and method of fabricating the same

An organic electroluminescent device includes first and second substrates facing and spaced apart from each other, the first and second substrates including a pixel region; a gate line on an inner surface of the first substrate; a data line crossing the gate line; a switching thin film transistor connected with the gate line and the data line; a driving thin film transistor connected with the switching thin film transistor; a power line connected with the driving thin film transistor; a first electrode on an inner surface of the second substrate; a first sidewall and a second sidewall on the first electrode at a boundary of the pixel region, the first sidewall and the second sidewall spaced apart from each other; an electroluminescent layer on the first electrode in the pixel region; a second electrode on the electroluminescent layer in the pixel region; and a connection electrode electrically connected to the first and second substrates.

Sensor matrix with semiconductor components

The invention relates to a sensor matrix (1) with semiconductor components and a process for producing such a device, which sensor matrix comprises a laminar carrier layer (3), a first (4) and at least one second (10) electrode arrangement and a component arrangement (6). The first electrode arrangement (4) is disposed on a surface (2) of the carrier layer (3), and the component arrangement (6) is disposed on the first electrode arrangement (4) in the form of a plurality of organic semiconductor components (7). The second electrode arrangement (10) is arranged on a surface (8) of a top layer (9), and the top layer (9) is arranged over the carrier layer (3) so that the first (4) and second (10) electrode arrangements face one another and the second electrode arrangement (10) is in electrically conductive contact, at least in sections, with the component arrangement (6).

LIQUID CRYSTAL DISPLAY DEVICE

A liquid crystal display device includes a base unit, a gate line disposed on the base unit, a data line disposed on the base unit and crossing the gate line while being insulated from the gate line, a shielding electrode disposed on the data line and overlapping the data line and isolated from the pixel electrode and a conductive bar, the conductive bar disposed on the same layer as that on which the shielding electrode is disposed, isolated from the shielding electrode, and extending in parallel to the data line. 1. A liquid crystal display device comprising:a base unit;a gate line disposed on the base unit;a data line disposed on the base unit and crossing the gate line while being insulated from the gate line;a shielding electrode disposed on the data line and overlapping the data line and isolated from the pixel electrode and a conductive bar;the conductive bar disposed on the same layer as that on which the shielding electrode is disposed, isolated from the shielding electrode, and extending in parallel to the data line.2. The liquid crystal display device of claim 1 , wherein the conductive bar and the shielding electrode comprise the same material.3. The liquid crystal display device of claim 1 , wherein the conductive bar does not overlap the data line.4. The liquid crystal display device of claim 1 , further comprising:a pixel electrode disposed on the same layer as that on which the shielding electrode is disposed, and isolated from the shielding electrode and the conductive bar,wherein voltages of the same level are applied to the conductive bar and the pixel electrode and a voltage of a different level from the voltages applied to the conductive bar and the pixel electrode is applied to the shielding electrode.5. The liquid crystal display device of claim 4 , further comprising:a sustain electrode line disposed on the base unit and overlapping the conductive bar.6. The liquid crystal display device of claim 5 , wherein the sustain electrode line ...

PERMEATION BARRIER ON FLEXIBLE DEVICE

ORGANISCHE ELEKTROLUMINESZENZ-ANZEIGEVORRICHTUNG

Es wird eine organische Elektrolumineszenz-Anzeigevorrichtung offenbart, die enthält: ein unteres Substrat, das ein erstes Substrat, das in rote, grüne und blaue Unterbildpunktbereiche abgegrenzt ist, erste und zweite Schaltelemente, die den roten und grünen Unterbildpunktbereichen ausgebildet sind, erste und zweite Anoden, von denen jede mit den ersten und zweiten Schaltelementen verbunden ist, und eine erste organische Lichtemissionsschicht, die vollständig auf dem ersten Substrat ausgebildet ist, das mit den ersten und zweiten Anoden versehen ist, enthält; und ein oberes Substrat, das ein zweites Substrat, rote und grüne Farbfilterschichten, die entsprechend den roten und grünen Unterbildpunktbereichen auf dem zweiten Substrat ausgebildet sind, ein drittes Schaltelement, das entsprechend dem blauen Unterbildpunktbereich auf dem zweiten Substrat ausgebildet ist, eine dritte Anode, die mit dem dritten Schaltelement verbunden ist, und eine zweite organische Lichtemissionsschicht, die vollständig ...

ANZEIGEVORRICHTUNG UND ELEKTRONISCHE VORRICHTUNG

Eine Anzeigevorrichtung gemäß der vorliegenden Offenbarung ist mit Folgendem versehen: einem ersten Substrat, das mit einem Lichtemissionsteil versehen ist; einem zweiten Substrat, das so angeordnet ist, dass es dem ersten Substrat zugewandt ist; und einen Versiegelungsteil, der das erste Substrat und das zweite Substrat aneinander bondet. Das erste Substrat und/oder das zweite Substrat weist einen vertieften Teil auf, der bei einer Position gebildet ist, die sich außerhalb des Gebiets des Lichtemissionsteils befindet; und der Versiegelungsteil ist außerhalb des vertieften Teils gebildet. Außerdem umfasst eine elektronische Vorrichtung gemäß der vorliegenden Offenbarung eine Anzeigevorrichtung, die die oben beschriebene Konfiguration aufweist.

Organisches Elektrolumineszenzdisplay und Herstellverfahren für ein solches

Elektrolumineszenzdisplay mit: einem ersten Substrat (301) und einem zweiten Substrat (371), die einander zugewandt sind und über eine Vielzahl von Sub-Pixelbereichen (SP) verfügen; einer Gateleitung (305) auf dem ersten Substrat (301); einer Datenleitung (330), die die Gateleinen Sub-Pixelbereich (SP) auf dem ersten Substrat (301) zu bilden; einem Arrayelement (Tr), das mit den Gate- und Datenleitungen (305, 330) verbunden ist; einer Verbindungs-Elektrode (355), die mit dem Arrayelement (Tr) verbunden ist und im Sub-Pixelbereich (SP) angeordnet ist; einer Gatekontaktfleck-Elektrode (311), die elektrisch mit der Gateleitung (305) verbunden ist; einer Elektrolumineszenzdiode (E) auf dem zweiten Substrat (371); und einer Datenkontaktfleck-Elektrode (338), die elektrisch mit der Datenleitung (330) verbunden ist und in derselben Schicht wie die Gatekontaktfleck-Elektrode (311) angeordnet ist; dadurch gekennzeichnet, dass die Gatekontaktfleck-Elektrode (311) und die...

Organic electroluminescent device and method of fabricating the same

Organic light emitting device and method of fabricating the same

An organic light emitting device and a method of fabricating the same includes a first substrate; a thin film transistor (TFT) on the first substrate; a planarization layer on the TFT; an organic light emitting diode (OLED) on the planarization layer; a passivation layer on the OLED; a second substrate on the passivation; and a hydrogen capturing material between the first and the second substrates to prevent oxidation of materials forming the TFT.

Display device

A display device including a first substrate, pixel structures, a second substrate, first signal lines and second signal lines is provided. The pixel structures are disposed on a first surface of the first substrate. Each of the pixel structures includes a switching element and a pixel electrode. The switching element has a first end, a second end and a control end. The pixel electrode is electrically connected to the second end of the switching element. The second substrate is disposed under a second surface of the first substrate. The first signal lines and the second signal lines are disposed on the second substrate. First ends of switching elements of the pixel structures and control ends of the switching elements of the pixel structures are respectively electrically connected to the first signal lines and the second signal lines, wherein the first signal lines are substantially parallel to the second signal lines.

Active matrix organic electroluminescent display device and method of fabricating the same

An organic electroluminescent display device includes a substrate, a gate line on the substrate, a data line crossing the gate line over the substrate, a switching thin film transistor near the crossing of the gate line and data line, a driving thin film transistor system including a plurality of sub-TFTs connected in parallel to the switching thin film transistor via a gate base, a power line crossing the gate line over the substrate and electrically connected with the plurality of sub-TFTs, a first electrode over the driving thin film transistor system in contact with the plurality of sub-TFTs, an organic electroluminescent layer on the first electrode, and a second electrode of transparent material on the organic electroluminescent layer.

Light emitting device, method of manufacturing the same, and electronic apparatus

A light emitting device includes: a plurality of first electrodes; a plurality of second electrodes; and a plurality of light emitting films. Each of the plurality of light emitting films is disposed between one first electrode among the plurality of first electrodes and one second electrode among the plurality of second electrodes. The one first electrode is electrically connected to the second electrode that is adjacent to the one second electrode among the plurality of second electrodes.

Electro-optical device, method of manufacturing the same, and electronic apparatus

Aspects of the invention provide an electro-optical device including first pixel portions each including an active element and second pixel portions each not including any active element, the first and second pixel portions being provided in an image display region of a substrate, a first driving device for driving the first pixel portions in an active driving method and a second driving device for driving the second pixel portions in a passive driving method. Accordingly, the invention can realize a display by using both an active driving method and a passive driving method with a simple structure.

DISPLAY DEVICE

A display device may include a first substrate, a first color conversion unit, a second color conversion unit, a light diffusion unit, and a first wall. The first color conversion unit is located on the first substrate. The second color conversion unit is disposed on the first substrate and is spaced from the first color conversion unit. The light diffusion unit is disposed between the first color conversion unit and the second color conversion unit. The first wall is disposed between the first color conversion unit and the light diffusion unit. The first color conversion unit includes a first-color conversion layer. The first-color conversion layer overlaps two pixel regions.

Organic light-emitting display apparatus

An organic light-emitting display apparatus includes: a first substrate; an insulating layer on the first substrate; a signal wiring on the insulating layer; an organic light-emitting device on the first substrate, the organic light-emitting device defining an active area and including a first electrode, a second electrode, and an intermediate layer between the first and second electrodes; a passivation layer on the insulating layer; and a metal layer on the passivation layer at an outer region adjacent to the active area, separated from the first electrode, and contacting the second electrode and the signal wiring, wherein a first opening is in the passivation layer at the outer region, and the metal layer contacts the insulating layer at the first opening.

LIGHT-EMITTING DEVICE, METHOD FOR MANUFACTURING THE SAME, AND CELLULAR PHONE

The invention relates to: a light-emitting device which includes a first flexible substrate having a first electrode, a light-emitting layer over the first electrode, and a second electrode with a projecting portion over the light-emitting layer and a second flexible substrate having a semiconductor circuit and a third electrode electrically connected to the semiconductor circuit, in which the projecting portion of the second electrode and the third electrode are electrically connected to each other; a method for manufacturing the light-emitting device; and a cellular phone which includes a housing incorporating the light-emitting device and having a longitudinal direction and a lateral direction, in which the light-emitting device is disposed on a front side and in an upper portion in the longitudinal direction of the housing.

LIGHT-EMITTING DEVICE AND PEELING METHOD

A flexible device is provided. The hardness of a bonding layer of the flexible device is set to be higher than Shore D of 70, or preferably higher than or equal to Shore D of 80. The coefficient of expansion of a flexible substrate of the flexible device is set to be less than 58 ppm/° C., or preferably less than or equal to 30 ppm/° C. 1. A light-emitting device comprising:a first substrate having flexibility;a second substrate having flexibility;an element layer between the first substrate and the second substrate;an insulating layer between the first substrate and the element layer;a first bonding layer between the first substrate and the insulating layer;a second bonding layer between the second substrate and the element layer,wherein the element layer comprises a light-emitting element,wherein the first bonding layer comprises a first portion whose hardness is higher than Shore D of 70,wherein the second bonding layer comprises a second portion whose hardness is higher than Shore D of 70,wherein the first substrate comprises a third portion whose coefficient of expansion is less than 58 ppm/° C., andwherein the second substrate comprises a fourth portion whose coefficient of expansion is less than 58 ppm/° C.2. The light-emitting device according to claim 1 ,wherein the hardness of the first portion is higher than or equal to Shore D of 80, andwherein the hardness of the second portion is higher than or equal to Shore D of 80.3. The light-emitting device according to claim 1 ,wherein the coefficient of expansion of the third portion is less than or equal to 30 ppm/° C., andwherein the coefficient of expansion of the fourth portion is less than or equal to 30 ppm/° C.4. A peeling method comprising:a first step of forming a peeling layer over a first substrate,a second step of forming a layer to be peeled over the peeling layer, wherein the layer to be peeled comprises a first layer comprising a region in contact with the peeling layer,a third step of disposing a ...

Electroluminescent display having an adhesive layer comprised of two or more liquids

Provided is a display apparatus which can easily bond a drive panel ( 10 ) and a sealing panel ( 20 ) together. The drive panel ( 10 ) includes organic electroluminescence devices ( 10 R), ( 10 G) and ( 10 B) on a substrate for drive ( 11 ) and extracts light from the side of the organic electroluminescence devices ( 10 R), ( 10 G) and ( 10 B). The sealing panel ( 20 ) includes a color filter ( 22 ) on a substrate for sealing ( 21 ). The drive panel ( 10 ) and the sealing panel ( 20 ) are disposed to face each other, and the whole facing surfaces of the drive panel ( 10 ) and the sealing panel ( 20 ) are bonded together with an adhesive layer ( 30 ). The adhesive layer ( 30 ) is cured with at least heat, and is made of only one coating liquid or a combination of two or more coating liquids for curing. A temporary fixing portion ( 30 A) is formed in an edge portion of the adhesive layer ( 30 ). The temporary fixing portion ( 30 A) is made of, for example, an ultraviolet cure resin, and is ...

Organic electroluminescent device and fabrication method thereof

Provided are an organic electroluminescent device and a fabrication method thereof. The organic electroluminescent device includes a first substrate, a second substrate, an organic electroluminescent layer formed on the first substrate, a thin film transistor formed on the second substrate, and first and second seal lines attaching the first and second substrates to each other.

Electroluminescence device, electroluminescence apparatus, and production methods thereof

Provided is a method for producing an electroluminescence device, which comprises steps of making a surface of a crystal silicon substrate porous to form a porous silicon film, forming a first electroconductive film on the porous silicon film, forming an electroluminescence film on the first electroconductive film, forming a second electroconductive film on the electroluminescence film, peeling a laminate of the first electroconductive film, electroluminescence film, and second electroconductive film from the crystal silicon substrate, and mounting the laminate on a first base material.

ORGANIC ELECTROLUMINESCENT ELEMENT AND ITS MANUFACTURING METHOD THEREFOR

PROBLEM TO BE SOLVED: To remove moisture in an organic electroluminescent element of a dual-panel type. SOLUTION: For removing moisture in the element, a thin film that has a certain shape and moisture absorption function is formed in an array of the upper substrate of the organic electroluminescent element or the lower substrate thereof, and on the outer wall. COPYRIGHT: (C)2005,JPO&NCIPI ...

Organische Elektrolumineszenzvorrichung und Verfahren zu deren Herstellung

Organische Elektrolumineszenzvorrichtung mit: einem ersten und einem zweiten Substrat (310, 350), die voneinander beabstandet einander zugewandt sind und die über eine Vielzahl von Pixelbereichen (P) verfügen; einer Gateleitung auf einer Innenfläche des ersten Substrats (310); einer die Gateleitung schneidenden Datenleitung; einem mit der Gateleitung und der Datenleitung verbundenen Schalt-Dünnschichttransistor; einem mit dem Schalt-Dünnschichttransistor verbundenen Ansteuer-Dünnschichttransistor; einer mit dem Ansteuer-Dünnschichttransistor verbundenen Spannungsleitung; einer ersten Elektrode (352) auf einer Innenfläche des zweiten Substrats (350); einer ersten Seitenwand (358a) und einer zweiten Seitenwand (358b) auf der ersten Elektrode (352) an einer Grenze eines Pixelbereichs (P), wobei die erste Seitenwand (358a) und die zweite Seitenwand (358b) voneinander beabstandet sind und die erste und die zweite Seitenwand (358a, 358b) jeweils erste und zweite Außenseiten (S1, S2) mit positiver ...

Dual panel type organic electroluminescent display device and method of fabricating the same

A dual panel type organic electroluminescent display device includes first and second substrates (210, 250) facing and spaced apart from each other, an array element layer (A) on an inner surface of the first substrate (210) and including a thin film transistor (T), a connection pattern (240) on the array element layer (A) and electrically connected to the thin film transistor (T), a first electrode (252) on an inner surface of the second substrate (250), a partition wall (256) on the first electrode (252) in a non-pixel area (NP) between adjacent pixel areas (P), an organic light-emitting layer (258) on the first electrode (252) in the pixel area (P), a second electrode (260) on the organic light-emitting layer (258) in the pixel area (P) and electrically connected to the connection pattern (240), a moisture absorption layer (262) on the partition wall (256), and a seal pattern (270) between the first and second substrates (210, 250) along a peripheral portion. Alternatively the moisture ...

Specially-shaped separator for dual plate type organic electroluminescent device

The organic electroluminescent display device includes first and second substrates 111, 151 facing and spaced apart from each other. A first electrode 113 resides on the first substrate 111 and a separator 130 having dual-layer, reciprocal L-shaped pattern resides on the first electrode. An organic emitting layer 135 having a first thickness resides on the first electrode in a sub-pixel region SP and a second electrode (140) resides on the organic emitting layer 135. An array element layer including a thin film transistor resides on the second substrate 151. A connection pattern 180 electrically connects the second electrode 140 and the thin film transistor. The shaping of the separator 130 ensures that the organic emitting layer 135 is completely enclosed. This prevents device degradation due to out-gassing and other ageing effects.

OLED display

A first pixel partition structure 115 is etched preferentially with respect to a second pixel partition structure 125 to form a cavity 115a below the second pixel partition of an OLED substrate 100. When the OLED contact electrode 130 is deposited the partition structure ensures that no short circuits can occur between neighbouring pixels. A spacer contact 234,235 extends between a TFT device formed on a TFT substrate 200.

Organic electroluminescent device and method of fabricating the same

Organic electroluminescent device and method of fabricating the same

Display apparatus and multi display apparartus including the same

Display device

Light emitting display device and method for fabricating the same

A light emitting display device includes a first electrode formed at a light emitting region of a first substrate; a transparent oxide thin film of about 1 AA to about 200 AA in thickness formed on anentire surface of the first electrode at the light emitting region to substantially cover particle on the entire surface of the first electrode; an organic light emitting layer formed on an entire surface of the oxide thin film to emit a light; and a second electrode formed on an entire surface of the first substrate including the organic light emitting layer.

Organic electro-luminescence device and fabricating method thereof

An organic electroluminescent device includes first and second substrates facing and spaced apart from each other; a gate line on the first substrate; a data line intersecting the gate line to defineapixel region; a switching element connected to the gate line and the data line; an organic electroluminescent diode on the second substrate; and a driving element connected to the switching elementan d the organic electroluminescent diode, the driving element including a plurality of driving negative-type polycrystalline silicon thin film transistors connected to the organic electroluminescent diode in parallel.

The organic electro-luminescence device and method for fabricating of the same

Organic electro-luminescence device and method for fabricating the same

organic electro-luminescence display device and fabricating method of the same

The organic electro-luminescence device and method for fabricating of the same

DISPLAY ASSEMBLY INCLUDING TWO SUPERPOSED DISPLAY DEVICES

The present invention relates to a display assembly for a portable object. The display assembly (1; 100; 200) includes: a first reflective display device (2; 102; 202) located on a side of an observer (4), and a second emissive display device (6: 104; 204) disposed underneath the first reflective display device (2; 102; 202). COPYRIGHT KIPO 2016 ...

ORGANIC ELECTRO-LUMINESCENT DEVICE AND FABRICATING METHOD THEREOF

PURPOSE: An organic electro-luminescent device and a fabricating method thereof are provided to reduce the number of power lines in half and improve an aperture ratio by forming one power line for neighboring pixels. CONSTITUTION: An organic electro-luminescent device includes a gate line(101), a data line(111), a plurality of switching elements(TS1,TS2), a plurality of driving elements(TD1,TD2), a power line(112), the first electrode(122), an organic electro-luminescent layer, and the second electrode. A pixel is defined on a substrate(100) by the gate line(101) and the data line(111). The switching elements(TS1,TS2) and the driving elements(TD1,TD2) are formed at intersections between the gate line(101) and the data line(111). The switching elements(TS1,TS2) and the driving elements(TD1,TD2) are formed with TFTs including gate electrodes(107,108), active layers(103,104), source electrodes(116,117), and drain electrodes(118,119). The power line(112) is connected to the source electrodes ...

Permeation barrier on flexible device

SENSOR MATRIX WITH SEMICONDUCTOR COMPONENTS

The invention relates to a sensor matrix (1) with semiconductor components and a process for producing such a device, which sensor matrix comprises a laminar carrier layer (3), a first (4) and at least one second (10) electrode arrangement and a component arrangement (6). The first electrode arrangement (4) is disposed on a surface (2) of the carrier layer (3), and the component arrangement (6) is disposed on the first electrode arrangement (4) in the form of a plurality of organic semiconductor components (7). The second electrode arrangement (10) is arranged on a surface (8) of a top layer (9), and the top layer (9) is arranged over the carrier layer (3) so that the first (4) and second (10) electrode arrangements face one another and the second electrode arrangement (10) is in electrically conductive contact, at least in sections, with the component arrangement (6).

Organic electroluminescent display device and method of fabricating the same

An organic electroluminescent display device includes first and second substrates facing and spaced apart from each other, gate and data lines on an inner surface of the first substrate and crossing each other to define a pixel region, a switching element at a crossing point of the gate and data lines, a driving element connected to the switching element, a first electrode on an inner surface of the second substrate, an organic light-emitting layer on the first electrode in the pixel region, a second electrode on the organic light-emitting layer in the pixel region and electrically connected to the driving element, and a coloring element on an outer surface of the second substrate in the pixel region.

METHOD FOR FABRICATING DISPLAY DEVICE AND DISPLAY DEVICE THEREOF

A display device having an uneven electrode enhances display quality by improving the emission efficiency of the vertically polarized light. The method for fabricating a display device includes forming a thin film transistor on a base substrate, forming a first electrode connected to the thin film transistor, forming a block copolymer layer on the first electrode, patterning the block copolymer layer and forming a uneven first electrode having a plurality of electrode grooves by etching the first electrode exposed by the block copolymer pattern, and forming a light emitting layer on the uneven first electrode.

Flat Panel Display Device

In a flat panel display device, a crack or burr is prevented from occurring by disposing a plurality of supports between adjacent connection members, and the supports are separated from the connection members by a predetermined distance. The flat panel display device comprises: a first substrate, including a plurality of active areas and a plurality of non-active areas; an emission unit disposed in the plurality of active areas; a second substrate connected to the first substrate; a plurality of connection members respectively disposed in the plurality of non-active areas and combining the first substrate and the second substrate with each other; and a plurality of supports disposed between the adjacent connection members so as to be respectively separated from the connection members, and supporting the first and second substrates, wherein the plurality of supports are separated from one another.

Electronic device and method of making thereof

There is provided a method of forming a light source, the method comprising providing a backplane comprising a backplane substrate and a semiconductor particle formed separately from the backplane substrate and then fixed upon the backplane substrate at a predetermined position. The semiconductor particle can be planarized to remove a portion of the semiconductor particle and to expose at a cross-section of the semiconductor particle a planar surface. Moreover, the backplane may comprise a controllable gated electronic component on or directly beneath the planar surface. The controllable gated electronic component may be configured to control an LED emitter. The method further comprises providing the LED emitter comprising one or more LEDs electrically connected to the backplane such that at least one of the LEDs is electrically connected to the controllable gated electronic component.

Organic electro luminescence device and fabrication method thereof

Organische Elektrolumineszenzanzeige und Verfahren zu deren Herstellung

Organisches Lumineszenzdisplay vom Doppeltafeltyp sowie Verfahren zum Herstellen desselben

Organisches Elektrolumineszenzdisplay vom Doppeltafeltyp mit: einem ersten und einem zweiten Substrat (210, 250), die einander zugewandt und voneinander beabstandet sind; einer Arrayelementschicht (A) auf einer Innenfläche des ersten Substrats (210) und mit einem Dünnschichttransistor (T); einem Verbindungsmuster (240) auf der Arrayelementschicht (A) und in elektrischer Verbindung mit dem Dünnschichttransistor (T); einer ersten Elektrode (252) auf einer Innenfläche des zweiten Substrats (250); einer Trennwand (256) auf der ersten Elektrode (252) in einem Nicht-Pixelgebiet (NP) zwischen benachbarten Pixelgebieten (P); einer organischen Lichtemissionsschicht (258) auf der ersten Elektrode (252) im Pixelgebiet (P); einer zweiten Elektrode (260) auf der organischen Lichtemissionsschicht (258) im Pixelgebiet (P) und in elektrischer Verbindung mit dem Verbindungsmuster (240); einer Feuchtigkeitsabsorptionsschicht (262) aus einem hygroskopischen Isoliermaterial auf einer zwischen benachbarten ...

Micro display device and display integrated circuit

A micro display device including: a pixel array chip PAC including a pixel array zone PAZ in which a plurality of subpixels SP defined by a plurality of gate lines and a plurality of data lines are arranged, and a through-zone GTSVZ STSVZ in which a plurality of through-electrodes connected to the plurality of gate lines and the plurality of data lines in an outer area of the pixel array zone are arranged; and a driver chip DRC including a circuit zone CZ in which a driver circuit DRV configured to drive the plurality of gate lines and the plurality of data lines through the plurality of through-electrodes is disposed; wherein the pixel array chip is disposed on the driver chip. There is also a display integrated circuit including a silicon substrate, a plurality of subpixels arranged in a pixel array zone and a plurality of through electrodes; wherein the subpixels are arranged to be driven by a data voltage and a scan signal transferred through the plurality of through electrodes from ...

ORGANIC LIGHT EMITTING DISPLAY DEVICE

Organic electroluminescent device and fabrication method thereof

Provided are an organic electroluminescent device and a fabrication method thereof. The organic electroluminescent device includes a first substrate, a second substrate, an organic electroluminescent layer formed on the first substrate, a thin film transistor formed on the second substrate, and first and second seal lines attaching the first and second substrates to each other.

Twin-slab organic electroluminescence display device and its manufacturing method

The organic electro-luminescence device

OLED DISPLAY WITH SPALLED SEMICONDUCTOR DRIVING CIRCUITRY AND OTHER INTEGRATED FUNCTIONS

Spalling is employed to generate a single crystalline semiconductor layer. Complementary metal oxide semiconductor (CMOS) logic and memory devices are formed on a single crystalline semiconductor substrate prior to spalling. Organic light emitting diode (OLED) driving circuitry, solar cells, sensors, batteries and the like can be formed prior to, or after, spalling. The spalled single crystalline semiconductor layer can be transferred to a substrate. OLED displays can be formed into the spalled single crystalline semiconductor layer to achieve a structure including an OLED display with semiconductor driving circuitry and other functions integrated on the single crystalline semiconductor layer. 1. A method for forming a structure including an OLED display with semiconductor driving circuitry and other functions , said method comprising:providing a single crystalline semiconductor substrate having at least logic and memory devices formed on an exposed surface of the single crystalline semiconductor substrate;forming a surface protection layer on the exposed surface of the single crystalline semiconductor substrate having the at least logic and memory devices formed thereon;forming a stressor layer above the surface protection layer;spalling the single crystalline semiconductor substrate to provide a spalled single crystalline semiconductor layer having the at least logic and memory devices located on a surface thereof;forming a substrate on a surface of the spalled single crystalline semiconductor layer opposite the surface having the at least logic and memory devices located thereon; andforming an organic light emitting diode (OLED) display on the spalled single crystalline semiconductor layer and adjacent the at least logic and memory devices.2. The method of claim 1 , wherein said single crystalline semiconductor substrate further comprises OLED driving circuitry located on the exposed surface of the single crystalline semiconductor substrate and adjacent the at ...

ORGANIC LIGHT-EMITTING DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME

The organic light-emitting display device includes: a substrate including a transistor region; and a thin-film transistor formed over the transistor region of the substrate and having a planarization film which is disposed over a source/drain electrode and a pixel defining layer which includes an aperture exposing a portion of a first electrode electrically connected to the source/drain electrode and defining a pixel region, wherein an outgassing hole is formed in a region of the pixel defining layer other than the aperture to expose the planarization film. 115-. (canceled)16. A method of manufacturing an organic light-emitting display device , the method comprising:forming a planarization film over a transistor region of a substrate;forming a first electrode, which is electrically connected to a source/drain electrode, over the planarization film;providing a pixel defining layer which comprises an aperture exposing a portion of the first electrode to define a pixel region;forming at least one outgassing hole in a region of the pixel defining layer other than the aperture to expose the planarization film; andforming an organic light-emitting layer over the first electrode of the pixel region by using a nozzle printing process,wherein outgassing generated by the planarization film during forming of the organic light-emitting layer is released from the planarization film through the at least one outgassing hole.17. The method of claim 16 , wherein the at least one outgassing hole comprises a plurality of outgassing holes.18. The method of claim 17 , wherein the plurality of outgassing holes are arranged at predetermined intervals along a direction that is parallel to at least one edge of the pixel region.19. The method of claim 16 , wherein the forming of the at least one outgassing hole further comprises rounding edges of the outgassing hole.20. The method of claim 16 , wherein in the forming of the outgassing hole claim 16 , the outgassing hole is formed in a region ...

Organic light-emitting display apparatus

An organic light-emitting display apparatus includes: a first substrate; an insulating layer on the first substrate; a signal wiring on the insulating layer; an organic light-emitting device on the first substrate, the organic light-emitting device defining an active area and including a first electrode, a second electrode, and an intermediate layer between the first and second electrodes; a passivation layer on the insulating layer; and a metal layer on the passivation layer at an outer region adjacent to the active area, separated from the first electrode, and contacting the second electrode and the signal wiring, wherein a first opening is in the passivation layer at the outer region, and the metal layer contacts the insulating layer at the first opening.

FUNCTIONAL PANEL, LIGHT-EMITTING PANEL, DISPLAY PANEL, AND SENSOR PANEL

A functional panel is provided. The functional panel includes a first substrate, a second substrate, a bonding layer, a functional element, a protective layer, and a terminal. The bonding layer is positioned between the first and second substrates. The functional element is surrounded by the first substrate, the second substrate, and the bonding layer. The terminal is electrically connected to the functional element and provided not to overlap with one of the first and second substrates. The protective layer is provided to be in contact with side surfaces of the first and second substrates and an exposed surface of the bonding layer. A surface of the terminal is partly exposed without being covered with the protective layer. The surface of the terminal partly includes a material having a lower ionization tendency than hydrogen. 1. A functional panel comprising:a first substrate;a bonding layer;a functional element;a protective layer; anda terminal,wherein the bonding layer is positioned over the first substrate,wherein the functional element is surrounded by the first substrate and the bonding layer,wherein the terminal is electrically connected to the functional element,wherein the protective layer is provided to be in contact with a side surface of the first substrate and an exposed surface of the bonding layer, andwherein a part of a surface of the terminal is exposed without being covered with the protective layer.2. The functional panel according to claim 1 , wherein the part of the surface of the terminal includes a material having a lower ionization tendency than hydrogen.3. The functional panel according to claim 2 , wherein the material is palladium claim 2 , iridium claim 2 , gold claim 2 , or platinum.4. The functional panel according to claim 1 , wherein the protective layer includes at least one of aluminum oxide claim 1 , hafnium oxide claim 1 , zirconium oxide claim 1 , titanium oxide claim 1 , zinc oxide claim 1 , indium oxide claim 1 , tin oxide ...

Light-emitting device, method for manufacturing the same, and cellular phone

The invention relates to: a light-emitting device which includes a first flexible substrate having a first electrode, a light-emitting layer over the first electrode, and a second electrode with a projecting portion over the light-emitting layer and a second flexible substrate having a semiconductor circuit and a third electrode electrically connected to the semiconductor circuit, in which the projecting portion of the second electrode and the third electrode are electrically connected to each other; a method for manufacturing the light-emitting device; and a cellular phone which includes a housing incorporating the light-emitting device and having a longitudinal direction and a lateral direction, in which the light-emitting device is disposed on a front side and in an upper portion in the longitudinal direction of the housing.

Light-emitting device, method for manufacturing the same, and cellular phone

The invention relates to: a light-emitting device which includes a first flexible substrate having a first electrode, a light-emitting layer over the first electrode, and a second electrode with a projecting portion over the light-emitting layer and a second flexible substrate having a semiconductor circuit and a third electrode electrically connected to the semiconductor circuit, in which the projecting portion of the second electrode and the third electrode are electrically connected to each other; a method for manufacturing the light-emitting device; and a cellular phone which includes a housing incorporating the light-emitting device and having a longitudinal direction and a lateral direction, in which the light-emitting device is disposed on a front side and in an upper portion in the longitudinal direction of the housing.

DISPLAY DEVICE

A display device includes: a first substrate; a pixel defining layer on the first substrate, the pixel defining layer being configured to define a pixel area; a pixel electrode in the pixel area; a light emission layer on the pixel electrode; a common electrode on the light emission layer; a second substrate facing the first substrate; an edge black matrix on one surface of the second substrate, the edge black matrix being configured to define a non-display area; a reflective layer on the edge black matrix; a light guide part on one surface of the first substrate; and a light sensor unit configured to receive light emitted from the light guide part. 1. A display device , comprising:a first substrate;a pixel defining layer on the first substrate, the pixel defining layer being configured to define a pixel area;a pixel electrode in the pixel area;a light emission layer on the pixel electrode;a common electrode on the light emission layer;a second substrate facing the first substrate;an edge black matrix on one surface of the second substrate, the edge black matrix being configured to define a non-display area;a reflective layer on the edge black matrix;a light guide part on one surface of the first substrate; anda light sensor unit configured to receive light emitted from the light guide part.2. The display device as claimed in claim 1 , wherein at least part of the pixel area overlaps the edge black matrix.3. The display device as claimed in claim 1 , wherein the light guide part comprises:a light guide plate; anda light guide reflective plate on one surface of the light guide plate.4. The display device as claimed in claim 3 , wherein the light guide plate is at the edge black matrix.5. The display device as claimed in claim 3 , further comprising a prism part between the light guide plate and the first substrate.6. The display device as claimed in claim 5 , wherein the prism part overlaps the edge black matrix.7. The display device as claimed in claim 5 , wherein ...

ELECTROLUMINESCENCE DISPLAY DEVICE AND FABRICATION METHOD THEREOF

Embodiments of the disclosure disclose an electroluminescence display device and a fabrication method thereof. The device comprises a color filter substrate. The color filter substrate comprises: a first substrate, and a first electrode, an organic electroluminescence layer and a second electrode sequentially provided on the first substrate. The color filter substrate further comprises: a first protective layer, provided on the second electrode and covering the second electrode and the organic electroluminescence layer below the second electrode; and a first connection electrode, provided on the first protective layer and connected to the second electrode. 1. An electroluminescence display device , comprising: a color filter substrate; the color filter substrate comprising: a first substrate , and a first electrode , an organic electroluminescence layer and a second electrode sequentially provided on the first substrate; a first protective layer, provided on the second electrode and covering the second electrode and the organic electroluminescence layer below the second electrode; and', 'a first connection electrode, provided on the first protective layer and connected to the second electrode., 'wherein the color filter substrate further comprises2. The device according to claim 1 , whereinat a position where the first connection electrode is provided, the first protective layer protrudes along a direction away from the second electrode to form a protrusion;the first protective layer is provided with a first protective layer via-hole at the protrusion; andthe first connection electrode is connected to the second electrode through the first protective layer via-hole.3. The device according to claim 1 , whereinthe color filter substrate further comprises: a color filter layer provided between the first substrate and the first electrode; the color filter layer comprises a black matrix and color filters separated by the black matrix;the second electrode is provided to ...

DISPLAY PANEL AND ELECTRONIC DEVICE INCLUDING THE SAME

A display panel includes a base substrate including a front surface and a rear surface and having first and second holes, and a pixel layer on the base substrate. A display area is defined in the front surface. The first hole overlaps with the display area and penetrates the front and rear surfaces. The second hole overlaps with the display area, is adjacent to the first hole, and is recessed from the front surface. The base substrate includes a first base layer including the rear surface, a first barrier layer on the first base layer and including first inorganic films having a first refractive index, and second inorganic films having a second refractive index, a second base layer on the first barrier layer, and a second barrier layer on the second base layer and including the front surface. The first and second inorganic films are alternately stacked. 1. A display panel comprising:a base substrate which includes a front surface and a rear surface and in which a first hole and a second hole are defined, wherein the first hole overlaps with a display area and penetrates the front surface and the rear surface, and wherein the second hole overlaps with the display area, is adjacent to the first hole, and is recessed from the front surface; anda pixel layer on the front surface of the base substrate,wherein the base substrate comprises:a first base layer including the rear surface of the base substrate;a first barrier layer on the first base layer and comprising at least two inorganic films with different refractive indexes;a second base layer on the first barrier layer; anda second barrier layer on the second base layer and including the front surface of the base substrate.2. The display panel of claim 1 , wherein the second hole surrounds the first hole when viewed in a plan view.3. The display panel of claim 1 , wherein the second hole is defined in the second base layer and the second barrier layer.4. The display panel of claim 1 , wherein the second hole is not ...

DISPLAY DEVICE

To display a high-quality video regardless of a usage environment. To provide a display device which is lightweight and less likely to be broken. To reduce power consumption of the display device. The display device includes a first display element, a first transistor connected to the first display element, a second display element, and a second transistor connected to the second display element. The first display element is a reflective display element. The first display element and the first transistor are bonded to the second display element and the second transistor with an adhesive layer. Light from the second display element is extracted to the display surface on the first display element side. The light is condensed or guided by a light-condensing means or a light-guiding means provided in a path of the light from the second display element to the display surface. 1. A display device comprising:a first substrate;a first transistor comprising an oxide semiconductor layer, a source electrode, and a drain electrode over the first substrate;a light-emitting element comprising a first conductive layer electrically connected to one of the source electrode and the drain electrode, an EL layer over the first conductive layer, and a second conductive layer over the EL layer;a light-condensing means over the second conductive layer; anda second substrate over the light-condensing means,wherein light from the light-emitting element is extracted to a second substrate side, andwherein the light from the light-emitting element is condensed by the light-condensing means.2. The display device according to claim 1 , wherein the light-condensing means comprises a first insulating layer and a second insulating layer covering a side surface of the first insulating layer.3. The display device according to claim 2 ,{'sub': 2', '2, 'wherein the first insulating layer comprises SiC, TiO, ZnS, CeO, or an indium tin oxide, and'}{'sub': 2', '2, 'wherein the second insulating layer ...

METHODS FOR PRODUCING A GLASS-BASED NON PLANAR DIGITAL DISPLAY

A curved display for an electronic device, comprises a main substrate, a display circuit component, an OLED stack and a secondary substrate. The main substrate has a first curved section extending from a first end of the main substrate and a longitudinally adjacent second planar section extending to define a second end of the main substrate opposite the first end. The first curved section comprises at least one flat glass member bent into a curved configuration, and the second planar section comprises a flat segment of the flat glass member. The display circuit component is mounted to an upper surface of the second planar section, the display circuit component being positioned within and spaced from edges of the second planar section. The OLED stack is positioned over the first curved section. The secondary substrate comprises a flat glass member bent into a curved configuration and secured to the first curved section of the main substrate with the OLED stack positioned between the first curved section of the main substrate and the secondary substrate. 1. A curved display for an electronic device , comprising:a main substrate comprising a first curved section extending from a first end of the main substrate and a longitudinally adjacent second planar section extending to define a second end of the main substrate opposite the first end, wherein the first curved section comprises at least one flat glass member bent into a curved configuration, and wherein the second planar section comprises a flat segment of the flat glass member;a display circuit component mounted to an upper surface of the second planar section, the display circuit component being positioned within and spaced from edges of the second planar section;an OLED stack positioned over the first curved section;a secondary substrate comprising a flat glass member bent into a curved configuration and secured to the first curved section of the main substrate with the OLED stack positioned between the first ...

ORGANIC ELECTRO LUMINESCENT DISPLAY DEVICE

An organic EL display device includes plural pixels that is arranged on a substrate in a matrix, a light shielding film that shields boundaries of the plurality of pixels, and a light emitting area in which an organic layer that is arranged between a lower electrode and an upper electrode, and formed of a plurality of layers including a light emitting layer that emits a light comes in contact with the lower electrode, in each of the plurality of pixels, in which the light shielding film has wide portions and narrow portions which are arranged along sides of the pixels, and different in width from each other. 1. An organic EL display device , comprising:a plurality of pixels that is arranged on a substrate in a matrix;a light shielding film that shields boundaries of the plurality of pixels; anda light emitting area in which an organic layer that is arranged between a lower electrode and an upper electrode, and formed of a plurality of layers including a light emitting layer, in each of the plurality of pixels,wherein the light shielding film has wide portions and narrow portions which are arranged along sides of the pixels, and different in width from each other.2. The organic EL display device according to claim 1 ,wherein the light emitting area has long sides and short sides that extend along sides of a shape of the pixel, and are different in length, in each of the plurality of pixels,wherein the narrow portions are arranged along the sides of the pixel corresponding to the short sides, andwherein the wide portions are arranged along the side of the pixel corresponding to the long sides.3. The organic EL display device according to claim 1 ,wherein each of the wide portions has a width that covers an organic layer slope area in which the organic layer and the upper electrode around the light emitting area are inclined as compared with the light emitting area in a plan view, andwherein each of the narrow portions has a width that does not arrive at the organic ...

DISPLAY DEVICE

A display device, an electronic device, or a lighting device that is unlikely to be broken is provided. A flexible first substrate and a flexible second substrate overlap with each other with a display element provided therebetween. A flexible third substrate is bonded on the outer surface of the first substrate, and a flexible fourth substrate is bonded on the outer surface of the second substrate. The third substrate is formed using a material softer than the first substrate, and the fourth substrate is formed using a material softer than the second substrate. 1. A display device comprising:a first substrate and a second substrate overlapping with each other with a display element provided therebetween; anda third substrate and a fourth substrate overlapping with each other with the first substrate and the second substrate provided therebetween,wherein the first substrate and the second substrate are in contact with the third substrate and the fourth substrate, respectively,wherein a Young's modulus of the first substrate and the second substrate is larger than or equal to 1 GPa and smaller than or equal to 100 GPa,wherein a Young's modulus of the third substrate and the fourth substrate is smaller than or equal to one fiftieth of the Young's modulus of the first substrate and the second substrate, andwherein the display device is configured to be bent at any part.2. The display device according to claim 1 , wherein the display element is a light-emitting element.3. The display device according to claim 2 , wherein the light-emitting element is electrically connected to a transistor.4. The display device according to claim 3 , wherein a semiconductor layer of the transistor comprises an oxide semiconductor.5. The display device according to claim 1 , wherein at least one of a first pair of the first substrate and the third substrate and a second pair of the second substrate and the fourth substrate has a light-transmitting property.6. The display device according ...

DISPLAY APPARATUS

Provided is a display apparatus and a method of manufacture. The display apparatus includes a first substrate with a plurality of organic electroluminescence devices, a second substrate with a color filter, the second substrate facing the first substrate, and an adhesive layer disposed between the first substrate and the second substrate so as to cover the plurality of organic electroluminescence devices, the adhesive layer being made of a material selected from the group consisting of a phenol resin, a melanin resin, an unsaturated polyester resin, an epoxy resin, a silicon resin and a polyurethane resin. 1. A display apparatus comprising:a first substrate;a plurality of organic electroluminescence devices arranged in a display area on an upper surface of the first substrate;a second substrate facing the first substrate;an adhesive member attached to the upper surface of the first substrate and a lower surface of the second substrate in at least a peripheral region of the display area; andan antireflective film disposed on an upper surface of the second substrate,wherein the antireflective film is provided to prevent surface reflection of external light on the second substrate.2. The display apparatus according to claim 1 , wherein the adhesive member includes a first adhesive portion that is a temporary fixing portion and a second adhesive portion.3. The display apparatus according to claim 1 , wherein the antireflective film includes a plurality of film filters.4. The display apparatus according to claim 1 , wherein at least one of the plurality of organic electroluminescence devices includes an anode electrode claim 1 , a cathode electrode claim 1 , and an organic layer including a light-emitting layer claim 1 , and wherein the organic layer is disposed between the anode electrode and the cathode electrode.5. The display apparatus according to claim 4 , wherein the anode electrode includes silver (Ag).6. The display apparatus according to claim 4 , wherein the ...

LIGHT-EMITTING DEVICE

It is an object of the present invention to provide a light-emitting device where periphery deterioration can be prevented from occurring even when an organic insulating film is used as an insulating film for the light-emitting device. In addition, it is an object of the present invention to provide a light-emitting device where reliability for a long period of time can be improved. A structure of an inorganic film, an organic film, and an inorganic film is not continuously provided from under a sealing material under a cathode for a light-emitting element. In addition, penetration of water is suppressed by defining the shape of the inorganic film that is formed over the organic film even when a structure of an inorganic film, an organic film, and an inorganic film is continuously provided under a cathode for a light-emitting element. 1. (canceled)2. A light-emitting device comprising:a first substrate;a transistor over the first substrate;a wiring over the first substrate;a sealing material over and in contact with a region of the wiring; anda second substrate over and in contact with the sealing material,wherein the region comprises a plurality of openings, andwherein the wiring is a same layer as a source electrode and a drain electrode of the transistor.3. The light-emitting device according to claim 2 , wherein the region is positioned between a pixel portion comprising the transistor and an external connecting portion.4. The light-emitting device according to claim 3 , wherein the external connecting portion is electrically connected to a flexible printed circuit.5. The light-emitting device according to claim 2 , wherein the plurality of openings each have a rectangular shape.6. The light-emitting device according to claim 2 , wherein the wiring comprises copper.7. The light-emitting device according to claim 2 , wherein the wiring has a stacked structure containing aluminum.8. The light-emitting device according to claim 2 , wherein the transistor is a top- ...

METHOD FOR MANUFACTURING BONDED BODY

A method of manufacturing joined body including: firstly, putting sheet material in intimate contact with first substrate to cover, with resin layer of sheet material, areas of first substrate including first area, boundary area surrounding first area, and second area located across from first area with respect to boundary area, sheet material being laminate including resin layer and separable layer, resin layer containing uncured sealing resin; secondly, curing sealing resin in part of resin layer covering boundary area; thirdly, removing, along with separable layer, part of resin layer covering second area in one direction from one end towards the other of two ends of second area; and fourthly, joining first substrate and second substrate together by arranging second substrate to face first substrate and curing sealing resin with parts of resin layer covering boundary area and first area located between second substrate and first substrate. 116-. (canceled)17. A method of manufacturing a joined body , comprising:putting a sheet material in intimate contact with a first substrate to cover, with a resin layer of the sheet material, areas of the first substrate including a first area, a boundary area that surrounds the first area, and a second area that is located across from the first area with respect to the boundary area, the sheet material being a laminate including the resin layer and a separable layer, the resin layer containing sealing resin in uncured state;curing the sealing resin in a part of the resin layer covering the boundary area, after putting the sheet material in intimate contact with the first substrate;removing, along with the separable layer, a part of the resin layer covering the second area in one direction from one end towards the other of two ends of the second area, after curing the part of the resin layer covering the boundary area; andjoining the first substrate and a second substrate together by arranging the second substrate to face the ...

DISPLAY DEVICE

A display device includes a substrate, a first light-emitting unit, a second light-emitting unit, a first light conversion unit, a second light conversion unit, a first buffer layer, a second buffer layer, and a sidewall buffer layer. The first light-emitting unit and the second light-emitting unit are disposed on the substrate. The first buffer layer is disposed between the first light conversion unit and the first light-emitting unit and has a first curved bottom surface. The second buffer layer is disposed between the second light conversion unit and the second light-emitting unit and has a second curved bottom surface. The sidewall buffer layer directly contacts the first light conversion unit and the second light conversion. A width of the first curved bottom surface is different from a width of the second curved bottom surface. 1. A display device , comprising:a substrate;a first light-emitting unit disposed on the substrate;a second light-emitting unit disposed on the substrate and adjacent to the first light-emitting unit;a first light conversion unit disposed on the first light-emitting unit;a second light conversion unit disposed on the second light-emitting unit;a first buffer layer disposed between the first light conversion unit and the first light-emitting unit and having a first curved bottom surface;a second buffer layer disposed between the second light conversion unit and the second light-emitting unit and having a second curved bottom surface; anda sidewall buffer layer disposed between the first light conversion unit and the second light conversion unit and directly contacting the first light conversion unit or the second light conversion unit,wherein a width of the first curved bottom surface is different from a width of the second curved bottom surface.2. The display device as claimed in claim 1 , wherein the width of the second curved bottom surface is greater than the width of the first curved bottom surface.3. The display device as claimed ...

ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE HAVING AN INPUT FUNCTION

An organic electroluminescent display device includes a first substrate having a pixel area including a plurality of pixels each including a plurality of sub pixels, a light emitting devices are provided in correspondence with the sub pixels, and a partition layer covering a peripheral portion of each of the sub pixels; and a second substrate having a sensing unit including a first electrode pattern extending in one direction and a second electrode pattern extending in a direction intersecting the one direction, and the first electrode pattern and the second electrode pattern is provided out of contact from each other. The first electrode pattern is located to overlap the partition layer so as to enclose the sub pixels. The first electrode pattern included in the sensing unit encloses the sub pixels, and thus light is prevented from leaking to adjacent sub pixels. 1. An organic electroluminescent display device , comprising:a first substrate having a pixel area including a plurality of pixels each including a plurality of sub pixels, a light emitting devices are provided in correspondence with the sub pixels, and a partition layer covering a peripheral portion of each of the sub pixels; anda second substrate having a sensing unit including a first electrode pattern extending in one direction and a second electrode pattern extending in a direction intersecting the one direction, and the first electrode pattern and the second electrode pattern is provided out of contact from each other;wherein:the first substrate and the second substrate are located to face each other such that the pixel area and the first electrode pattern face each other; andthe first electrode pattern is located to overlap the partition layer so as to enclose the sub pixels.2. The organic electroluminescent display device according to claim 1 , wherein a side surface of the first electrode pattern is inclined such that an open area in the first electrode pattern is opened toward the first substrate ...

LIGHT-EMITTING DEVICE AND MANUFACTURING METHOD THEREOF

A light-emitting device which is thin and lightweight and has high flexibility, impact resistance, and reliability is provided. Further, a light-emitting device which is thin and lightweight and has high flexibility, impact resistance, and hermeticity is provided. In the light-emitting device in which a light-emitting region including a transistor and a light-emitting element is sealed between a first flexible substrate and a second flexible substrate, an opening is provided in the second flexible substrate around a region overlapping with the light-emitting region, the opening is filled with frit glass containing low-melting glass and bonding the first flexible substrate and the second flexible substrate, and the fit glass is provided so as to be in contact with an insulating layer provided over the first flexible substrate. The second flexible substrate may include an opening in a region overlapping with the light-emitting region. 1. A light-emitting device comprising:a first flexible substrate comprising a light-emitting region;a second flexible substrate facing the first flexible substrate, the second flexible substrate comprising an opening around the light-emitting region; andfrit glass sealing the first flexible substrate and the second flexible substrate,wherein the opening is filled with the frit glass.2. The light-emitting device according to claim 1 , wherein the opening is a dot shape or a slit shape.3. The light-emitting device according to claim 1 , wherein at least one of the first flexible substrate and the second flexible substrate is a metal base.4. A light-emitting device comprising:a first flexible substrate comprising a light-emitting region;a second flexible substrate facing the first flexible substrate, the second flexible substrate comprising a first opening overlapping with the light-emitting region and a second opening around the light-emitting region; andfrit glass sealing the first flexible substrate and the second flexible substrate, ...

DISPLAY DEVICE

A display device includes a first substrate having a first step part formed in a frame area on a periphery of a display area, a second substrate arranged facing the first substrate, and a filler material filled between the first substrate in one part of the display area and the frame area, and the second substrate, a periphery edge part being located in a range from the first step part to an end part of the first substrate and the second substrate. 1. A display device comprising;a first substrate having a first step part formed in a frame area on a periphery of a display area;a second substrate arranged facing the first substrate; anda filler material filled between the first substrate in one part of the display area and the frame area, and the second substrate, a periphery edge part being located in a range from the first step part to an end part of the first substrate and the second substrate.2. The display device according to claim 1 , wherein the first substrate includes a color filter formed on a part of the display area and the frame area claim 1 , and the first step is formed by etching the color filter.3. The display device according to claim 1 , wherein the second substrate includes a second step part formed on a part facing the frame area of the first substrate.4. The display device according to claim 3 , wherein the second substrate is formed with a transistor including an organic interlayer insulation film claim 3 , and the second step part is formed by etching a part of the organic interlayer insulation film.5. The display device according to claim 1 , wherein the first step part is formed by flat surface or curved surface bonding.6. The display device according to claim 3 , wherein the second step part is formed by flat surface or curved surface bonding.7. The display device according to claim 1 , further comprising:a terminal area contacting an outer side of the frame area;whereinthe first step part is formed in the frame area on a side near the ...

ORGANIC LIGHT-EMITTING DISPLAY DEVICES AND METHODS OF MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY DEVICES

An organic light-emitting display device may include a first substrate, a first electrode disposed on the first substrate, a pixel defining layer disposed on the first substrate and defining a pixel opening thereof which exposes a portion of the first electrode, an organic light-emitting layer disposed on the exposed portion of the first electrode, a second electrode disposed on the organic light-emitting layer, a capping layer disposed on the second electrode and extending to contact the pixel defining layer, a second substrate opposite to the first substrate, and a dispersion layer disposed on a bottom surface of the second substrate. The dispersion layer may absorb an outgas generated by the pixel defining layer. 1. An organic light-emitting display device , comprising:a first substrate;a first electrode disposed on the first substrate;a pixel defining layer disposed on the first substrate, the pixel defining layer defining a pixel opening thereof which exposes a portion of the first electrode;an organic light-emitting layer disposed on the exposed portion of the first electrode;a second electrode disposed on the organic light-emitting layer;a capping layer disposed on the second electrode and extending to contact the pixel defining layer;a second substrate opposite to the first substrate; anda dispersion layer disposed on a bottom surface of the second substrate to face the pixel defining layer with respect to the capping layer.2. The organic light-emitting display device of claim 1 , wherein the dispersion layer absorbs an outgas generated by the pixel defining layer.3. The organic light-emitting display device of claim 1 , wherein an end portion of the capping layer contacts the pixel defining layer.4. The organic light-emitting display device of claim 1 , wherein a thickness of the dispersion layer is in a range of about 54 nanometers to about 150 nanometers.5. The organic light-emitting display device of claim 1 , wherein the capping layer includes an ...

Organic light emitting diode display panel and organic light emitting diode display device containing the same

An organic light emitting diode display panel is disclosed, which comprises: a first substrate with an organic light emitting layer formed thereon; a second substrate corresponding to the first substrate, and adhered to the first substrate with a frit sealant; and plural spacers disposed between the first substrate and the second substrate, and comprising a first spacer, a second spacer and a third spacer adjacent to each other, wherein shapes of a first projection of the first spacer, a second projection of the second spacer and a third projection of the third spacer on the second substrate are different from each other. In addition, the present invention also disclosed an organic light emitting diode display device containing the same.

ELECTRO-LUMINESCENCE DEVICE AND METHOD OF MANUFACTURING THE SAME

A filling material is provided in an interval part between a first substrate provided with a light emitting device in a pixel and a second substrate provided with a color filter layer corresponding to each pixel which is provided to face each other and a protruding part is provided in the interval part. The protruding part is provided separated along one edge of each pixel. An end part in a length direction of the protruding part is formed in a cone or streamlined shape. In addition, the protruding part is formed from a material having light absorbing properties such as carbon black so as to provide light shielding properties. By adopting this structure, it is possible to solve a problem of mixing colors produced between pixels. It is possible to ensure that the flow of the filling material provided between the first substrate and the second substrate is not obstructed. 1. An electro-luminescence device comprising:a first substrate having a pixel region including a first electrode provided over an insulating surface, a plurality of pixels provided apart including a light emitting device provided with an organic electro-luminescence between the first electrode and a second electrode facing the first electrode, and a partition wall provided to covering an outer periphery end part of the first electrode;a second substrate provided facing the first substrate with an interval and including a color filter provided corresponding to each of the plurality of pixels and a light shielding layer provided corresponding to a region in which the plurality of pixels are separated;a filling material provided in an interval between the first substrate and the second substrate;a protruding part provided between the first substrate and the second substrate and provided to stand within in the filling material, andthe protruding part being provided in a position overlapping the light shielding layer and separated along at least one edge of the pixel.2. The electro-luminescence device ...

Flexible Display

A flexible display has a display layer, a thin-film transistor (TFT) layer and a flexible substrate. The display layer has a plurality of display units. The TFT layer has a plurality of pixel control circuits and a plurality of sensing circuits. The pixel control circuits are configured to control operations of the plurality of display units. Each of the sensing circuits is configured to generate a deformation signal according to deformation of the flexible display. The flexible substrate and the TFT layer are stacked. 1. A flexible display , comprising:a display layer, having a plurality of display units;a thin-film transistor layer, having a plurality of pixel control circuits and a plurality of sensing circuits, the pixel control circuits being configured to control the display units, and each of the sensing circuits being configured to provide a deformation signal according to deformation of the flexible display; anda flexible substrate, stacked with the thin-film transistor layer.2. The flexible display of claim 1 , wherein each of the sensing circuits comprises:a first signal line, configured to transmit the deformation signal provided by the each of the sensing circuits;a first resistor, electrically coupled between the first signal line and a first system voltage; and at least a first transistor, having a control end, a first end and a second end, the control end is configured to receive a scan signal, and the first end is electrically coupled to the second system voltage; and', 'a strain sensor, electrically coupled between the second end of the at least first transistor and the first resistor, and comprises a plurality of strain sensing units coupled in series, a resistance of each of the strain sensing units is varied with a strain and/or stress applied to the each of the strain sensing units., 'a plurality of sensing units, electrically coupled between the first signal line and a second system voltage, and each of the sensing units comprises3. The ...

ORGANIC LIGHT EMITTING DEVICE AND METHOD OF FABRICATING THE SAME

An organic light emitting device and a method of fabricating the same includes a first substrate; a thin film transistor (TFT) on the first substrate; a planarization layer on the TFT; an organic light emitting diode (OLED) on the planarization layer; a passivation layer on the OLED; a second substrate on the passivation; and a hydrogen capturing material between the first and the second substrates to prevent oxidation of materials forming the TFT. 1. An organic light emitting device comprising:a first substrate;a thin film transistor (TFT) on the first substrate;a planarization layer on the TFT;an organic light emitting diode (OLED) on the planarization layer;a passivation layer on the OLED;a second substrate on the passivation; anda hydrogen capturing material between the first and the second substrates,wherein the hydrogen capturing material dissociates hydrogen to prevent oxidation of materials forming the TFT.2. The organic light emitting device of claim 1 , wherein the first substrate includes the hydrogen capturing material.3. The organic light emitting device of claim 1 , wherein the second substrate includes the hydrogen capturing material.4. The organic light emitting device of claim 1 , wherein both the first and the second substrates include the hydrogen capturing material.5. The organic light emitting device of claim 1 , wherein the TFT includes an oxide layer selected from the group consisting of Indium Gallium Zinc Oxide (IGZO) claim 1 , Zinc Tin Oxide (ZTO) claim 1 , and Zinc Indium Oxide (ZIO).6. The organic light emitting device of claim 1 , wherein the hydrogen capturing material includes a metal foil or metal foil alloy including a hydrogen capturing metal.7. The organic light emitting device of claim 1 , wherein at least one of the first and the second substrates includes a material selected from the group consisting of Li claim 1 , Na claim 1 , Cr claim 1 , α-Fe claim 1 , Mo claim 1 , W claim 1 , and K.8. The organic light emitting device of ...

BIOMETRIC SENSING DEVICE AND DISPLAY DEVICE

A biometric sensing device includes a first electricity storage component, a first sensing component, a first driving component and a control unit. The first sensing component is coupled with the first electricity storage component, wherein when the first sensing component is turned on, a charging path is formed between the first sensing component and the first electricity storage component, and the first sensing component makes the first electricity storage component be charged according to a sensed biometric. The first driving component is coupled with the first electricity storage component and the first sensing component, wherein when the first driving component is turned on, the first electricity storage component discharges. The control unit is coupled with the first sensing component and/or the first driving component for turning on the first sensing component and the first driving component. 1. A biometric sensing device , comprising:a first electricity storage component;a first sensing component coupled with the first electricity storage component, wherein when the first sensing component is turned on, a charging path is formed between the first sensing component and the first electricity storage component, and the first sensing component makes the first electricity storage component be charged according to a sensed biometric;a first driving component coupled with the first electricity storage component and the first sensing component, wherein when the first driving component is turned on, the first electricity storage component discharges; anda control unit coupled with at least one of the first sensing component and the first driving component for turning on the first sensing component and the first driving component.2. The biometric sensing device according to claim 1 , wherein the control unit outputs a control signal for turning on the first sensing component and turning off the first driving component in a first period in order to form the charging ...

DISPLAY APPARATUS AND MANUFACTURING METHOD THEREOF, REPAIRING METHOD FOR DISPLAY APPARATUS

A display apparatus is provided, which includes a rigid substrate; a first carrier plate provided on a first surface of the rigid substrate; a first substrate provided on the first carrier plate, the first substrate including a thin film transistor with a drain; a light emitting assembly provided on a second surface of the rigid substrate distal to the first surface, the light emitting assembly including an anode and a light emitting layer provided successively along a direction distal to the rigid substrate; and a via hole provided penetrating the rigid substrate and the first carrier plate, the anode electrically coupled to the drain through the via hole. In the display apparatus of the present disclosure the light emitting assembly is separated from the array substrate such that when the light emitting assembly or the first substrate suffers from failure, it can be replaced easily. 1. A display apparatus , comprising:a rigid substrate;a first carrier plate provided on a first surface of the rigid substrate;a first substrate provided on the first carrier plate, the first substrate comprising a thin film transistor with a drain;a light emitting assembly provided on a second surface of the rigid substrate opposite to the first surface, the light emitting assembly comprising an anode and a light emitting layer provided successively along a direction distal to the rigid substrate; anda via hole provided penetrating the rigid substrate and the first carrier plate, the anode electrically coupled to the drain through the via hole.2. The display apparatus of claim 1 , further comprising: a groove provided on a surface of the first carrier plate at a side of the first substrate claim 1 , whereinthe drain comprises a body and a connection extension portion; the body is provided on the first carrier plate at a side of the groove; and the connection extension portion extends from one end of the body into the groove; andan orthographic projection of the via hole on the rigid ...

FLEXIBLE DISPLAY AND MANUFACTURING METHOD THEREOF

A method of manufacturing a flexible display includes: forming a first barrier layer on a flexible substrate; forming a second barrier layer including silicon nitride on the first barrier layer; releasing stress of the second barrier layer; forming a first buffer layer including silicon nitride on the second barrier layer; forming a second buffer layer on the first buffer layer; and forming a thin film transistor on the second buffer layer. 1. A method of manufacturing a flexible display , comprising:forming a first barrier layer on a flexible substrate;forming a second barrier layer comprising silicon nitride on the first barrier layer;releasing stress of the second barrier layer;forming a first buffer layer comprising silicon nitride on the second barrier layer;forming a second buffer layer on the first buffer layer; andforming a thin film transistor on the second buffer layer.2. The method of claim 1 , whereinreleasing stress includes exposing the second barrier layer to air.3. The method of claim 1 , whereinthe flexible substrate comprises at least one polymer material layer comprising polyimide.4. The method of claim 3 , wherein the flexible substrate includes:a first flexible substrate;an intermediate barrier layer formed on the first flexible substrate; anda second flexible substrate formed on the intermediate barrier layer,wherein the intermediate barrier layer comprises a same material as the first barrier layer.5. The method of claim 4 , further comprising:forming an adhesive layer between the first flexible substrate and the second flexible substrate,wherein the adhesive layer comprises at least one of amorphous silicon on which a P-type or N-type conductive impurity is doped, or hydrogenated amorphous silicon.6. The method of claim 4 , whereinthe intermediate barrier layer is formed to have a thickness of about 1000 Å to about 6000 Å.7. The method of claim 4 , whereinthe first flexible substrate and the second flexible substrate comprise polyimide.8. The ...

LIGHTING EMITTING DEVICE, MANUFACTURING METHOD OF THE SAME, ELECTRONIC DEVICE HAVING THE SAME

One pixel is divided into a first region including a first light emitting element and a second region including a second light emitting element, wherein the first region emits light in one direction and the second region emits light in the direction opposite to that of the first region. Independently driving the first light emitting element and the second light emitting element allows images to be displayed independently on the surface. 1. (canceled)2. A display panel comprising:a plurality of light emitting elements,wherein the plurality of light emitting elements comprise a first light emitting element and a second light emitting element,wherein an insulating film is located over and in contact with a first electrode of the first light emitting element and a first electrode of the second light emitting element, a light emitting layer over the first electrode of the first light emitting element and the insulating film; and', 'a second electrode over the light emitting layer,, 'wherein the first light emitting element compriseswherein the display panel is a double-sided light emitting display panel.3. The display panel according to claim 2 , wherein the insulating film covers an end of the first electrode of the first light emitting element and an end of the first electrode of the second light emitting element.4. The display panel according to claim 2 , wherein each of a bottom surface of the first electrode claim 2 , a bottom surface of the second electrode claim 2 , and a bottom surface of the insulating film is in contact with a surface.5. The display panel according to claim 2 ,wherein light emitted from one of the plurality of light emitting elements is extracted from a first display surface of the display panel,wherein light emitted from the other one of the plurality of light emitting elements is extracted from a second display surface of the display panel,wherein the second display surface is an opposite surface of the first display surface, andwherein the ...

DISPLAY PANEL WITH VARYING CONDUCTIVE PATTERN ZONE

An organic electroluminescence display panel comprises a first substrate, a second substrate assembled to the first substrate, an organic light-emitting layer positioned between the first and second substrates, a sealant positioned between the first and second substrates, a varying pattern zone, and supplemental pattern zone. The second substrate comprises a sealant dispensing area, a metal region, and a non-metal region adjacent to the metal region. The metal region includes plural traces. The sealant is formed in the sealant dispensing area of the second substrate. The varying pattern zone is formed at one of the traces of the metal region, and is corresponding to the sealant dispensing area. The varying pattern zone comprises plural conductive portions. The supplemental pattern zone comprising plural supplemental conductive portions is formed at the non-metal region. A width of the conductive portions is larger than a width of the supplemental conductive portions. 1. An organic electroluminescence display panel , comprising:a first substrate;a second substrate assembled to the first substrate, and the second substrate comprising a sealant dispensing area, a metal region, and a non-metal region adjacent to the metal region, and the metal region comprising a plurality of traces;an organic light-emitting layer, positioned between the first substrate and the second substrate;a sealant, positioned between the first substrate and the second substrate and adjacent to the edges of the first substrate and the second substrate;a varying pattern zone, formed at one of the traces of the metal region and corresponding to the sealant dispensing area, and the varying pattern zone comprising a plurality of conductive portions; anda supplemental pattern zone, formed at the non-metal region and comprising a plurality of supplemental conductive portions apart from each other,wherein a width of the conductive portions in the metal region is larger than a width of the supplemental ...

DISPLAY APPARATUS INCLUDING ORGANIC ELECTROLUMINESCENCE DEVICES

Provided is a display apparatus and a method of manufacture. The display apparatus includes a first substrate with a plurality of organic electroluminescence devices, a second substrate with a color filter, the second substrate facing the first substrate, and an adhesive layer disposed between the first substrate and the second substrate so as to cover the plurality of organic electroluminescence devices, the adhesive layer being made of a material selected from the group consisting of a phenol resin, a melanin resin, an unsaturated polyester resin, an epoxy resin, a silicon resin and a polyurethane resin. 1. A method of manufacturing a display apparatus , comprising:forming a drive panel having a plurality of organic electroluminescence devices with a first electrode, one or more organic layers including a light-emitting layer, and a second electrode;forming a sealing panel over the second electrode, wherein the sealing panel seals the drive panel; andapplying an adhesive between the sealing panel and the drive panel, wherein the adhesive covers the plurality of organic electroluminescence devices,wherein the first electrode or the second electrode includes a semi-transparent electrode having semitransparency for light generated in the light-emitting layer, andwherein the first electrode and the second electrode constitute a resonant portion of a resonator configured to resonate the light generated in the light-emitting layer.2. The method according to claim 1 , wherein the second electrode is the semi-transparent electrode claim 1 , a phase shift of reflected light generated in the first electrode and the semi-transparent electrode is D claim 1 , an optical distance between the first electrode and the semi-transparent electrode is L and a peak wavelength of a spectrum of light extracted from the second electrode is λ claim 1 , and wherein the optical distance L is a positive minimum value and satisfies a formula:{'br': None, 'i': L/λ+Φ/', 'q, '22π='}wherein q is ...

LIGHT-EMITTING DEVICE

It is an object of the present invention to provide a light-emitting device where periphery deterioration can be prevented from occurring even when an organic insulating film is used as an insulating film for the light-emitting device. In addition, it is an object of the present invention to provide a light-emitting device where reliability for a long period of time can be improved. A structure of an inorganic film, an organic film, and an inorganic film is not continuously provided from under a sealing material under a cathode for a light-emitting element. In addition, penetration of water is suppressed by defining the shape of the inorganic film that is formed over 10 the organic film even when a structure of an inorganic film, an organic film, and an inorganic film is continuously provided under a cathode for a light-emitting element. 1. (canceled)2. A light-emitting device comprising:a first organic insulating layer over a substrate;a conductive layer over the first organic insulating layer;an anode over the first organic insulating layer;a second organic insulating layer over the conductive layer and the anode;a layer containing a light-emitting material over the second organic insulating layer; anda cathode over the layer containing a light-emitting material,wherein the cathode overlaps the conductive layer with the second organic insulating layer therebetween,wherein the layer containing a light-emitting material overlaps the conductive layer with the second organic insulating layer therebetween,wherein the second organic insulating layer does not overlap a region of the conductive layer,wherein the conductive layer comprises a region having a plurality of openings, andwherein the cathode does not overlap the region-having the plurality of openings of the conductive layer.3. The light-emitting device according to claim 2 ,wherein the conductive layer and the anode are spaced from each other.4. The light-emitting device according to claim 2 ,wherein the ...

Display apparatus

A display apparatus having an opening ratio that provides a high resolution and improved luminous quality and including: a substrate; a first driving thin-film transistor (TFT) and a first storage capacitor, the first storage capacitor for emitting light of a first color and on the substrate; a data wiring unit including a first data line, a second data line, and a third data line, at a first side of the first storage capacitor, extending along a first direction and spaced apart from one another along a second direction, intersecting the first direction, by a predetermined distance; a driving voltage line at a second side of the first storage capacitor and extending along the first direction; and a first pixel electrode electrically connected to the first driving TFT.

ORGANIC LIGHT-EMITTING DIODE (OLED) DISPLAY

An organic light-emitting diode (OLED) display is disclosed. In one aspect, the OLED display includes a display substrate including a display area configured to display an image and a peripheral area surrounding the display area. The OLED display also includes a thin film display layer formed over the display substrate in the display area and a shielding electrode formed over the entire surface of the thin film display layer. The OLED display further includes an encapsulation substrate formed over the display substrate and a touch electrode layer interposed between the encapsulation substrate and the thin film display layer. 1. An organic light-emitting diode (OLED) display , comprising:a display substrate including a display area configured to display an image and a peripheral area surrounding the display area;a thin film display layer formed over the display substrate in the display area;a shielding electrode formed over the entire surface of the thin film display layer;an encapsulation substrate formed over the display substrate; anda touch electrode layer interposed between the encapsulation substrate and the thin film display layer.2. The OLED display of claim 1 , further comprising an insulating layer interposed between the shielding electrode and the touch electrode layer.3. The OLED display of claim 1 , wherein the shielding electrode is transparent.4. The OLED display of claim 3 , wherein the shielding electrode is formed of one of the following materials: indium tin oxide (ITO) claim 3 , indium zinc oxide (IZO) claim 3 , indium tin zinc oxide (ITZO) claim 3 , and antimony tin oxide (ATO).5. The OLED display of claim 1 , further comprising:a touch driving integrated circuit (IC) formed at one side of the peripheral area of the display substrate and configured to transmit a first signal to the touch electrode layer; anda display driving IC configured to transmit a second signal to the thin film display layer.6. The OLED display of claim 5 , wherein the touch ...

LIGHT-EMITTING DEVICE AND INPUT/OUTPUT DEVICE

To provide a light-emitting device or an input/output device with little unevenness in display luminance or high reliability and to provide an input/output device with high detection sensitivity, a light-emitting device is configured to include a first substrate, a light-emitting element over the first substrate, a first conductive layer over the light-emitting element, a first insulating layer over the first conductive layer, a second conductive layer over the first insulating layer, and a second substrate over the second conductive layer. The light-emitting element includes a first electrode over the first substrate, a layer containing a light-emitting organic compound over the first electrode, and a second electrode over the layer containing a light-emitting organic compound. The second electrode is electrically connected to the first and second conductive layers. The first conductive layer and the second electrode transmit light emitted from the light-emitting element. The resistance of the second conductive layer is lower than that of the second electrode. 1. (canceled)2. A light-emitting device comprising:a first substrate;a transistor over the first substrate;a first insulating layer over the transistor;a first conductive layer over the first insulating layer;a second insulating layer covering an edge portion of the first conductive layer;a layer comprising an organic compound over the first conductive layer and the second insulating layer;a second conductive layer over the layer;a third conductive layer over and in contact with the second conductive layer;a third insulating layer over the third conductive layer;a fourth conductive layer over the third insulating layer and the third conductive layer; anda second substrate over the fourth conductive layer,wherein the first conductive layer is electrically connected to the transistor,wherein the third conductive layer is electrically connected to the fourth conductive layer,wherein the third insulating layer ...

DISPLAY DEVICE

A display device includes a first substrate, a second substrate opposed to the first substrate, a display region between the first substrate and the second substrate, a peripheral region outside the display region between the first substrate and the second substrate, an adhesive member adhering the first substrate and the second substrate, an interlayer insulating film between the first substrate and the second substrate, a light emitting element arranged in the display region, a sealing film between the interlayer insulating film and the second substrate, the light emitting element and the interlayer insulating film arranged between the sealing film and the first substrate, and a sealing film protective layer between the sealing film and the second substrate, the adhesive member arranged between the sealing film protective layer and the second substrate. 1. A display device comprising:a first substrate;a second substrate opposed to the first substrate;a display region between the first substrate and the second substrate;a peripheral region outside the display region between the first substrate and the second substrate;an adhesive member adhering the first substrate and the second substrate;an interlayer insulating film between the first substrate and the second substrate;a light emitting element arranged in the display region;a sealing film between the interlayer insulating film and the second substrate, the light emitting element and the interlayer insulating film arranged between the sealing film and the first substrate; anda sealing film protective layer between the sealing film and the second substrate, the adhesive member arranged between the sealing film protective layer and the second substrate,whereinthe sealing film includes a first inorganic insulating film, an organic insulating film, and a second inorganic insulating film,the sealing film protective layer has a region in contact with an end part of the first inorganic insulating film and an end part of ...

LIGHT EMITTING ELEMENT AND DISPLAY DEVICE INCLUDING LIGHT EMITTING ELEMENT

A light emitting element includes a base body , a first electrode formed on the base body , an organic layer formed on the first electrode and having at least a light emitting layer, and a second electrode formed on the organic layer . The second electrode has at least two edge portions A and B opposed to each other, and each of the edge portions A and B of the second electrode protrudes from an end face ′ of the organic layer 1. A light emitting element comprising:a base body;a first electrode formed on the base body;an organic layer formed on the first electrode and having at least a light emitting layer; anda second electrode formed on the organic layer, whereinthe second electrode has at least two edge portions opposed to each other, andeach of the edge portions of the second electrode protrudes from an end face of the organic layer.2. The light emitting element according to claim 1 , wherein a void is present immediately below each of the edge portions of the second electrode protruding from the end face of the organic layer.3. The light emitting element according to claim 1 , further comprising a protective film covering the second electrode claim 1 , whereinthe protective film extends immediately below each of the edge portions of the second electrode protruding from the end face of the organic layer.4. The light emitting element according to claim 1 , further comprising a protective film covering the second electrode claim 1 , whereina void is present adjacent to the organic layer in a part immediately below each of the edge portions of the second electrode protruding from the end face of the organic layer, andthe protective film extends to another portion immediately below each of the edge portions of the second electrode protruding from an edge portion of the organic layer.5. The light emitting element according to claim 1 , further comprising an insulation layer formed on the base body and having an opening in which the first electrode is exposed to a ...

Display Device and Manufacturing Method Thereof

In a display device using an organic light emitting diode (OLED), the occurrence of a dark spot and peeling of a cathode due to moisture are suppressed. An outer edge portion of a sealing substrate (second substrate) () is made to have a convex shape and a gap between the sealing substrate and an element substrate are controlled by means of this convex region. Thus, since it is not required that a layer () having adhesion for bonding together the sealing substrate and the element substrate has a function for controlling the gap, the thickness of the layer can be minimized. Therefore, the amount of moisture which is transmitted through the layer (having adhesion) made of an organic material and penetrated in a sealed region can be reduced. 1. (canceled)2. A light emitting device comprising:a first substrate;a light emitting element comprising a light emitting layer comprising an organic compound over the first substrate; anda second substrate over the light emitting element, the second substrate bonded to the first substrate through a layer having adhesion,wherein the second substrate comprises a first region overlapped with the layer having adhesion and a second region overlapped with the light emitting element,wherein each of the first region and the second region comprises minute unevennesses on a bottom surface of the second substrate, andwherein the minute unevennesses in the first region are in contact with the layer having adhesion.3. The light emitting device according to claim 2 , wherein each of the first substrate and the second substrate is a glass substrate.4. The light emitting device according to claim 2 , wherein heights of the minute unevennesses in the first region are set to be 0.1 μm to 3 μm.5. The light emitting device according to claim 2 , wherein the layer having adhesion comprises an ultraviolet light curable resin or a heat curable resin.6. The light emitting device according to claim 2 , wherein a thickness of the layer having adhesion is ...

DISPLAY DEVICE

A display device is provided. The display device includes a substrate, a driving transistor, a first insulation layer, a first electrode and a second insulation layer. The driving transistor is disposed on the substrate and includes a gate electrode, and the gate electrode projects a first projection profile on the substrate. The first insulation layer is disposed on the driving transistor. The first electrode is disposed on the first insulation layer, and projects a second projection profile on the substrate. The second insulation layer is disposed on the first electrode and the first insulation layer. The second insulation layer has an opening, the opening exposes a portion of the first electrode, and the opening projects a third projection profile on the substrate. 1. A display device , comprising:a substrate;a driving transistor, disposed on the substrate, wherein the driving transistor comprises a gate electrode, and the gate electrode projects a first projection profile on the substrate;a first insulation layer, disposed on the driving transistor;a first electrode, disposed on the first insulation layer, wherein the first electrode projects a second projection profile on the substrate; anda second insulation layer, disposed on the first electrode and the first insulation layer, wherein the second insulation layer has an opening, the opening exposes a portion of the first electrode, and the opening projects a third projection profile on the substrate,wherein the first projection profile intersects the second projection profile at a first intersection point and a second intersection point, an extending line passes the first intersection point and the second intersection point, and the extending line intersects the third projection profile at a third intersection point.2. The display device as claimed in claim 1 , wherein the opening corresponds to a first illumination area claim 1 , the display device further comprises a second illumination area and a third ...

DISPLAY DEVICE

A display device is disclosed. In one aspect, the display device includes a first panel, a second panel facing the first panel, and a sealant configured to seal together the first and second panels. The first panel includes a first substrate including a display area and a peripheral area surrounding the display area, a thin film display layer formed in the display area of the first substrate, and a first lower gate driving circuit formed in the peripheral area of the first substrate. The second panel includes a second substrate including a display area and a peripheral area surrounding the display area, a contact sensing layer formed in the display area of the second panel, and a first upper gate driving circuit formed in the peripheral area of the second substrate. The sealant at least partially overlaps the first lower and upper gate driving circuits. 1. A display device , comprising:a first panel;a second panel facing the first panel; anda sealant configured to seal together the first and second panels, a first substrate including a display area and a peripheral area surrounding the display area;', 'a thin film display layer formed in the display area of the first substrate; and', 'a first lower gate driving circuit formed in the peripheral area of the first substrate, wherein the first lower gate driving circuit is closer to the sealant that the thin film display layer,, 'wherein the first panel comprises a second substrate including a display area and a peripheral area surrounding the display area;', 'a contact sensing layer formed in the display area of the second panel; and', 'a first upper gate driving circuit formed in the peripheral area of the second substrate, wherein the first upper gate driving circuit is closer to the sealant than the contact sensing layer, and, 'wherein the second panel compriseswherein the sealant at least partially overlaps the first lower and upper gate driving circuits and includes a plurality of conductive balls electrically ...

ORGANIC LIGHT-EMITTING DISPLAY DEVICE

Described herein is an organic light-emitting display (OLED) device, comprising: a first substrate comprising an array of pixels; a second substrate facing the first substrate and comprising a color layer corresponding to each pixel in the array of pixels, and comprising a black matrix separating each pixel in the array of pixels from one another; a filler layer between the first substrate and the second substrate; a side encapsulation structure between the first substrate and the second substrate along side edges thereof, wherein the side encapsulation layer is around the filler layer; and a first support on an outer portion of the side encapsulation structure on the first substrate. 1. An organic light-emitting display (OLED) device , comprising:a first substrate comprising an array of pixels;a second substrate facing the first substrate and comprising a color layer corresponding to each pixel in the array of pixels, and comprising a black matrix separating each pixel in the array of pixels from one another;a filler layer between the first substrate and the second substrate;a side encapsulation structure between the first substrate and the second substrate along side edges thereof, wherein the side encapsulation layer is around the filler layer; anda first support on an outer portion of the side encapsulation structure on the first substrate.2. The OLED device of claim 1 , wherein the first support is configured to maintain a distance between the first substrate and the second substrate during a process of attaching the first substrate and the second substrate.3. The OLED device of claim 2 , further comprising a second support on the second substrate claim 2 ,wherein the first support faces the second support so as to suppress a deformation of the first substrate and the second substrate due to a difference in pressure during the process of attaching the first substrate and the second substrate.4. The OLED device of claim 1 , wherein each of the pixels comprises:a ...

ORGANIC LIGHT-EMITTING DIODE (OLED) DISPLAY AND METHOD OF MANUFACTURING THE SAME

An organic light-emitting diode (OLED) display and method of manufacturing the same are disclosed. In one aspect, the OLED display includes a first substrate including a display area, a display unit formed in the display area and including an insulating layer, and a second substrate formed over the display layer. A sealant material is interposed between the first and second substrates and substantially seals the first and second substrates to each other. At least one hole is formed in a first portion of the insulating layer and at least one recess is formed in a second portion of the insulating layer. The sealant is substantially filled in the hole and the recess. 1. An organic light-emitting diode (OLED) display , comprising:a first substrate including a display area;a display unit formed in the display area and including an insulating layer;a second substrate formed over the display layer; anda sealant material interposed between the first and second substrates and substantially sealing the first and second substrates to each other,wherein at least one hole is formed in a first portion of the insulating layer,wherein at least one recess is formed in a second portion of the insulating layer, andwherein the sealant substantially fills the hole and the recess.2. The OLED display of claim 1 , wherein the at least one hole comprises a plurality of holes claim 1 , wherein the at least one recess comprises a plurality of recesses respectively corresponding to and adjacent to the holes claim 1 , and wherein the sealant is substantially filled in each of the holes and the recesses.3. The OLED display of claim 1 , wherein the recess is substantially parallel to the first substrate.4. The OLED display of claim 1 , wherein the display unit comprises:a thin film transistor (TFT) including i) an active layer, ii) a gate insulating layer formed over the active layer, and iii) a gate electrode, a source electrode, and a drain electrode formed over the active layer; andan ...

OLED ON SILICON PRODUCT

A organic light-emitting diode (OLED) on Silicon product includes a circuit board, a central control board and an OLED on Silicon display panel located on the circuit board. A core control module and a timing control module are integrated in the central control board. The OLED on Silicon display panel has a display region, a gate row driving region, a source signal driving region, and a bonding region. OLED display pixels are provided in the display region. A gate row driving circuit is integrated in the gate row driving region. A source signal driving circuit is integrated in the source signal driving region. The bonding region is a region where the OLED on Silicon display panel is bound to the central control board. The OLED on Silicon product simplifies the processing process, reduces the cost and overall size of the product, and increases the area proportion of the display region. 1. An OLED on Silicon product , comprising:a circuit board;a central control board; andan OLED on Silicon display panel,whereinthe central control board and the OLED Silicon display panel are located on the circuit board,a core control module and a timing control module are integrated in the central control board,the OLED on Silicon display panel has a display region, a gate row driving region, a source signal driving region, and a bonding region,OLED display pixels are provided in the display region,a gate row driving circuit is integrated in the gate row driving region,a source signal driving circuit is integrated in the source signal driving region, andthe bonding region is a region where the OLED on Silicon display panel is bound to the central control board.2. The OLED on Silicon product according to claim 1 , whereinthe gate row driving region is located on two sides of the OLED display pixels in the display region,the source signal driving region and the bonding region are located on a side of the display region, andthe bonding region is located on an external side of the source ...

Electronic Device

Provided is an electronic device with high portability and/or high browsability. The electronic device includes first and second support bodies, a first hinge, and a flexible display panel. The first hinge has a first rotation axis and connects the first and second support bodies to each other, and the first and second support bodies are capable of relatively rotating on the first rotation axis. The display panel includes at least first and second portions supported by the first and second support bodies, respectively; the first rotation axis and a first plane including the display surface overlapping with the first portion or a second plane including the display surface overlapping with the second portion are parallel to each other; and each of a distance between the first rotation axis and the first plane or the second plane is greater than zero.

DISPLAY PANEL

A display panel includes a first substrate having a display area and a peripheral area. The display area includes pixels with first output wires connected to the pixels. A first driver is connected to the first output wires and positioned in the peripheral area at a first side of the display area. The first substrate includes a notch portion having a curved edge and the display area has a first display portion and a second display portion with the notch portion therebetween. At least one of the first output wires is a first main line at the first display portion, a second main line at the second display portion, and a first connecting line that is connected to the first main line and the second main line and is at the peripheral area between the first display portion and the second display portion. 1. A display panel comprising:a first substrate having a display area and a peripheral area outside the display area;a plurality of pixels at the display area;a plurality of first output wires connected to the plurality of pixels; anda first driver at a first peripheral area of the peripheral area at a first side of the display area, the first driver being connected to the plurality of first output wires,wherein the first substrate comprises a notch portion having a curved edge,wherein the display area comprises a first display portion and a second display portion that are spaced apart from each other with the notch portion interposed between the first display portion and the second display portion, and a first main line at the first display portion;', 'a second main line at the second display portion; and', 'a first connecting line that is connected to the first main line and the second main line and is at the peripheral area between the first display portion and the second display portion., 'wherein at least one of the plurality of first output wires comprises2. The display panel of claim 1 , whereinat least one of the first main line or the second main line extends in ...

DISPLAY DEVICE

A display device is provided. The display device includes a substrate, a driving transistor, a first electrode and an insulation layer. The driving transistor is disposed on the substrate, wherein the driving transistor comprises a gate electrode. The first electrode is disposed on the gate electrode. The insulation layer is disposed on the first electrode, wherein the insulation layer has an opening, and the opening exposes a portion of the first electrode. In view of a first direction perpendicular to the substrate, the first electrode partially overlaps the gate electrode to form a first portion, and the first portion is separated from the opening. 1. A display device , comprising:a substrate;a driving transistor, disposed on the substrate, wherein the driving transistor comprises a gate electrode;a first electrode, disposed on the gate electrode; andan insulation layer, disposed on the first electrode, wherein the insulation layer has an opening, and the opening exposes a portion of the first electrode,wherein in view of a first direction perpendicular to the substrate, the first electrode partially overlaps the gate electrode to form a first portion, and the first portion is separated from the opening.2. The display device as claimed in claim 1 , further comprising a power line disposed on the substrate claim 1 , wherein the power line is electrically connected to the driving transistor.3. The display device as claimed in claim 2 , wherein in view of the first direction claim 2 , the first portion is separated from the power line.4. The display device as claimed in claim 2 , wherein in view of the first direction claim 2 , the gate electrode at least partially overlaps the power line.5. The display device as claimed in claim 2 , wherein the power line extends along a second direction claim 2 , and the display device further comprises a data line disposed on the substrate and extending along the second direction.6. The display device as claimed in claim 5 , ...

LIGHT-EMITTING DEVICE

It is an object of the present invention to provide a light-emitting device where periphery deterioration can be prevented from occurring even when an organic insulating film is used as an insulating film for the light-emitting device. In addition, it is an object of the present invention to provide a light-emitting device where reliability for a long period of time can be improved. A structure of an inorganic film, an organic film, and an inorganic film is not continuously provided from under a sealing material under a cathode for a light-emitting element. In addition, penetration of water is suppressed by defining the shape of the inorganic film that is formed over 10 the organic film even when a structure of an inorganic film, an organic film, and an inorganic film is continuously provided under a cathode for a light-emitting element. 1. (canceled)2. A light-emitting device comprising:a first organic insulating film over a substrate;a conductive layer over the first organic insulating film;an anode over the first organic insulating film;a second organic insulating film over the conductive layer and the anode;a layer containing a light-emitting material over the second organic insulating film; anda cathode over the layer containing the light-emitting material,wherein the conductive layer includes a first opening and a second opening,wherein the second organic insulating film includes a region overlapping with the first opening and the second opening,wherein the conductive layer includes a region overlapped with the cathode through the second organic insulating film,wherein the conductive layer includes a region overlapped with the layer containing the light-emitting material through the second organic insulating film, andwherein the conductive layer includes a region not overlapped with the second organic insulating film.3. The light-emitting device according to claim 2 , wherein the conductive layer includes a region not overlapped with the cathode.4. The light- ...

Functional panel, light-emitting panel, display panel, and sensor panel

A functional panel is provided. The functional panel includes a first substrate, a second substrate, a bonding layer, a functional element, a protective layer, and a terminal. The bonding layer is positioned between the first and second substrates. The functional element is surrounded by the first substrate, the second substrate, and the bonding layer. The terminal is electrically connected to the functional element and provided not to overlap with one of the first and second substrates. The protective layer is provided to be in contact with side surfaces of the first and second substrates and an exposed surface of the bonding layer. A surface of the terminal is partly exposed without being covered with the protective layer. The surface of the terminal partly includes a material having a lower ionization tendency than hydrogen.

ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE

An organic electroluminescence display device includes: a lower electrode that is made of a conductive inorganic material and formed in each of pixels arranged in a matrix in a display area;

ORGANIC LIGHT-EMITTING DISPLAY APPARATUS

An organic light-emitting display apparatus includes: a first substrate; an insulating layer on the first substrate; a signal wiring on the insulating layer; an organic light-emitting device on the first substrate, the organic light-emitting device defining an active area and including a first electrode, a second electrode, and an intermediate layer between the first and second electrodes; a passivation layer on the insulating layer; and a metal layer on the passivation layer at an outer region adjacent to the active area, separated from the first electrode, and contacting the second electrode and the signal wiring, wherein a first opening is in the passivation layer at the outer region, and the metal layer contacts the insulating layer at the first opening. 1. An organic light-emitting display apparatus comprising:a first substrate;an insulating layer on the first substrate;a signal wiring on the insulating layer;an organic light-emitting device on the first substrate, the organic light-emitting device defining an active area and comprising a first electrode, a second electrode, and an intermediate layer between the first and second electrodes;a passivation layer on the insulating layer; anda metal layer on the passivation layer at an outer region adjacent to the active area, separated from the first electrode, and contacting the second electrode and the signal wiring,wherein a first opening is in the passivation layer at the outer region, and the metal layer contacts the insulating layer at the first opening.2. The organic light-emitting display apparatus of claim 1 , wherein the first opening extends across the passivation layer claim 1 , andwherein the passivation layer comprises two portions separated at the first opening.3. The organic light-emitting display apparatus of claim 1 , wherein the metal layer has a second opening above the passivation layer and outside the second electrode.4. The organic light-emitting display apparatus of claim 3 , wherein the ...

DISPLAY APPARATUS

Provided is a display apparatus and a method of manufacture. The display apparatus includes a first substrate with a plurality of organic electroluminescence devices, a second substrate with a color filter, the second substrate facing the first substrate, and an adhesive layer disposed between the first substrate and the second substrate so as to cover the plurality of organic electroluminescence devices, the adhesive layer being made of a material selected from the group consisting of a phenol resin, a melanin resin, an unsaturated polyester resin, an epoxy resin, a silicon resin and a polyurethane resin. 1. A display apparatus , comprising:a drive panel including a plurality of organic electroluminescence devices, wherein the organic electroluminescence devices each include a first electrode, one or more organic layers including a light-emitting layer and a second electrode laminated in order on a substrate, and wherein light generated in the light-emitting layer is extracted from a side of the second electrode,a sealing panel provided on the substrate, wherein the sealing panel faces the drive panel on the side of the second electrode; andan adhesive layer provided between the sealing panel and the drive panel, wherein at least a peripheral edge of the adhesive layer is exposed,wherein the second electrode includes a semi-transparent electrode having semi-transparency for the light generated in the light-emitting layer, andwherein the semi-transparent electrode and the first electrode constitute a resonant portion of a resonator configured to resonate the light generated in the light-emitting layer.2. The display apparatus according to claim 1 , wherein a phase shift of reflected light generated in the first electrode and the semi-transparent electrode is D claim 1 , an optical distance between the first electrode and the semi-transparent electrode is L and a peak wavelength of a spectrum of light extracted from the second electrode is λ claim 1 , and wherein the ...

DISPLAY SUBSTRATE AND FABRICATION METHOD, DISPLAY PANEL AND DISPLAY APPARATUS

The present disclosure provides a display substrate and fabricating method, a display panel, and a display apparatus. The display substrate includes a substrate including a sealing region and a driving wire on the substrate. At least a portion of the driving wire is in the sealing region. The portion of the driving wire includes: a first surface, a second surface opposite to the first surface, and sides there-between connecting to the first surface and the second surface. Each side has a projection width on the substrate of at least about 1 μm. 120-. (canceled)21. A display substrate , comprising:a substrate including a sealing region; anda driving wire on the substrate,wherein:at least a portion of the driving wire is in the sealing region,the portion of the driving wire includes: a first surface, a second surface opposite to the first surface, and sides there-between connecting to the first surface and the second surface, andeach side has a projection width on the substrate of at least about 1 μm.22. The display substrate according to claim 21 , wherein:the projection width of each side on the substrate is at least about 2 μm.23. The display substrate according to claim 21 , wherein:the projection width of each side on the substrate is at most about 5 μm.24. The display substrate according to claim 21 , wherein:each side of the portion of the driving wire in the sealing region has a planar surface.25. The display substrate according to claim 21 , wherein:each side of the portion of the driving wire in the sealing region has one of a cambered surface and a waving surface.26. The display substrate according to claim 21 , wherein:each side of the portion of the driving wire in the sealing region has at least a protrusion.27. The display substrate according to claim 26 , wherein:each side of the portion of the driving wire in the sealing region includes a plurality of continuous protrusions.28. The display substrate according to claim 27 , wherein:the plurality of ...

FLEXIBLE DISPLAY

A flexible display includes: a first flexible substrate; an intermediate barrier layer positioned on the first flexible substrate and comprising silicon oxide; an adhesive layer positioned on the intermediate barrier layer and comprising at least one of amorphous silicon on which a P-type or N-type conductive impurity is doped, or hydrogenated amorphous silicon; a second flexible substrate positioned on the adhesive layer; a first barrier layer positioned on the second flexible substrate and comprising silicon oxide; a second barrier layer positioned on the first barrier layer and comprising silicon nitride; a buffer layer positioned on the second barrier layer and comprising silicon oxide; a thin film transistor positioned on the buffer layer; and an organic light emitting element connected to the thin film transistor. 1. A flexible display , comprising:a first flexible substrate;an intermediate barrier layer positioned on the first flexible substrate and comprising silicon oxide;an adhesive layer positioned on the intermediate barrier layer and comprising at least one of amorphous silicon on which a P-type or N-type conductive impurity is doped, or hydrogenated amorphous silicon;a second flexible substrate positioned on the adhesive layer;a first barrier layer positioned on the second flexible substrate and comprising silicon oxide;a second barrier layer positioned on the first barrier layer and comprising silicon nitride;a buffer layer positioned on the second barrier layer and comprising silicon oxide;a thin film transistor positioned on the buffer layer; andan organic light emitting element connected to the thin film transistor.2. The flexible display of claim 1 , whereinthe first flexible substrate and the second flexible substrate comprise polyimide.3. The flexible display of claim 2 , whereineach of the first flexible substrate and the second flexible substrate is formed to have a thickness of about 8 μm to about 12 μm.4. The flexible display of claim 2 , ...

DISPLAY MODULE AND MULTI-DISPLAY DEVICE INCLUDING THE SAME

A display module is provided including a pixel region having a plurality of pixels and a black matrix arranged outside the pixel region. Each of the pixels is separated from adjacent pixels by a first interval, a left distance from the left edge to a first one of the plurality of pixels plus a right distance from a second one of the plurality of pixels to the right edge is a first distance, and a bottom distance from the bottom edge to a third one of the plurality of pixels plus a top distance from a fourth one of the plurality of pixels to the top edge is the first distance. 1. A display module having a rectangular shape having a left edge , a right edge , a top edge and a bottom edge , the display module comprising:a pixel region comprising a plurality of pixels; anda black matrix arranged outside the pixel region,wherein each of the plurality of pixels is separated from corresponding adjacent pixels by a first distance,a left distance from the left edge to a first one of the plurality of pixels plus a right distance from a second one of the plurality of pixels to the right edge is the first distance, anda bottom distance from the bottom edge to a third one of the plurality of pixels plus a top distance from a fourth one of the plurality of pixels to the top edge is the first distance.2. The display module as claimed in claim 1 , wherein the left distance claim 1 , the right distance claim 1 , the bottom distance and top distance are equal to each other.3. The display module as claimed in claim 1 , wherein:the left and the right distances are the same, the bottom and the top distances are different, orthe bottom and the top distances are the same, and the left and the right distances are different.4. The display module as claimed in claim 3 , wherein at least one of the left distance claim 3 , the right distance claim 3 , the bottom distance and the top distance is zero.5. The display module as claimed in claim 1 , wherein:the left distance and the right distance ...

ORGANIC LIGHT EMITTING DISPLAY DEVICE

Disclosed is an organic light emitting display device including a dam structure disposed in a non-display area of a substrate and an alignment mark disposed outside the dam structure. The alignment mark is not covered by, and does not overlap with, the dam structure, because the alignment mark is disposed outside the dame structure. Thus, a scribing process may be performed smoothly. 1. An organic light emitting display device comprising:a substrate including an active area and a non-display area provided outside the active area;a dam structure in the non-display area of the substrate; anda first alignment mark outside the dam structure in the non-display area of the substrate,whereinthe dam structure comprises a first dam structure arranged in a first direction, a second dam structure arranged in a second direction, and a third dam structure connected to each of the first dam structure and the second dam structure at an incline, andthe first alignment mark is disposed outside the third dam structure.2. The organic light emitting display device of claim 1 , whereinthe first dam structure and the second dam structure are arranged in parallel with an outermost line of the active area in the first direction and an outermost line of the active area in the second direction, respectively, andthe third structure is arranged apart from, and at an angle to, a vertex at which the outermost line of the active area in the first direction meets the outermost line of the active area in the second direction.3. The organic light emitting display device of claim 1 , whereinthe first dam structure comprises a first sealant, a first outer dam bank disposed on an outer side of the first sealant, and a first inner dam bank disposed on an inner side of the first sealant,the second dam structure comprises a second sealant, a second outer dam bank disposed on an outer side of the second sealant, and a second inner dam bank disposed on an inner side of the second sealant,the third dam ...

DISPLAY DEVICE

Disclosed is a liquid crystal display device including: a first substrate provided with an active area where an image is displayed, and with a nonactive area where an image is not displayed; a second substrate provided with a thin film transistor, and arranged to face the first substrate; a liquid crystal material disposed between the first substrate and the second substrate; a sealing member sealing between the first substrate and the second substrate; and a sealing area cell gap maintenance portion provided in a sealing area mutually sealing the first substrate and the second substrate to maintain a sealing area cell gap, which is an internal thickness of the first substrate and the second substrate in the sealing area SA, uniformly with an active area cell gap, which is an internal thickness of the first substrate and the second substrate in the active area. 1. A display device , comprising:a first substrate having an active area where an image is displayed, and a nonactive area where an image is not displayed;a second substrate having a thin film transistor and arranged to face the first substrate;a pixel image layer disposed between the first substrate and the second substrate;a sealing member sealing between the first substrate and the second substrate; anda sealing area cell gap maintenance region provided in a sealing area to maintain a sealing area cell gap distance that is an internal distance between the first substrate and the second substrate in the sealing area as the same distance as an active area cell gap that is an internal distance between the first substrate and the second substrate in the active area.2. The display device of claim 1 , wherein the pixel image layer disposed between the first substrate and the second substrate comprises a liquid crystal material.3. The display device of claim 1 , wherein the pixel image layer disposed between the first substrate and the second substrate comprises an organic light emitting diode.4. The display ...

ELECTROLUMINESCENT DISPLAY DEVICE

An electroluminescent display device includes a substrate on which a display area and a non-display area are defined. A thin film transistor is in the display area on the substrate. A light-emitting diode is connected to the thin film transistor and includes a first electrode, a light-emitting layer and a second electrode. A first link line is disposed in the non-display area and applies a first voltage to the first electrode. A second link line is spaced apart from the first link line in the non-display area. A conductive pattern is disposed in the non-display area and is connected to the second electrode to apply a second voltage. The conductive pattern has an opening corresponding to the first link line. 1. An electroluminescent display device , comprising:a substrate on which a display area and a non-display area are defined;a thin film transistor in the display area on the substrate;a light-emitting diode connected to the thin film transistor and including a first electrode, a light-emitting layer and a second electrode;a first link line disposed in the non-display area and configured to apply a first voltage to the first electrode;a second link line spaced apart from the first link line in the non-display area; anda conductive pattern disposed in the non-display area and connected to the second electrode to apply a second voltage, the conductive pattern having an opening corresponding to the first link line.2. The electroluminescent display device of claim 1 , wherein a portion of the conductive pattern overlapping the first link line has a shorter length than a portion of the conductive pattern overlapping the second link line.3. The electroluminescent display device of claim 1 , wherein the conductive pattern is formed of a same material and on a same layer as the first electrode.4. The electroluminescent display device of claim 1 , further comprising an organic insulating layer between the first and second link lines and the conductive pattern claim 1 , ...

DISPLAY DEVICE

The display device may include a first substrate including a plurality of pixel areas; a plurality of display elements arranged in the plurality of pixel areas on the first substrate; a second substrate facing the first substrate; a plurality of spacers arranged between the plurality of pixel areas and maintaining a constant space between the first substrate and the second substrate; and a plurality of touch sensing electrodes arranged on a surface of the second substrate which faces the first substrate. Here, each touch sensing electrode may include at least one first area and at least one second area that is electrically separated from the first area. The plurality of spacers may be arranged to correspond to the first area. 1. A display device comprising:a first substrate including a plurality of pixel areas;a plurality of display elements disposed in the plurality of pixel areas on the first substrate;a second substrate facing the first substrate;a plurality of spacers disposed between the plurality of pixel areas and maintaining a constant space between the first substrate and the second substrate; anda plurality of touch sensing electrodes between the display elements and the second substrate,wherein each touch sensing electrode includes at least one first area and at least one second area that is electrically separated from the first area, andwherein the plurality of spacers are disposed to correspond to the first area.2. The display device according to claim 1 , wherein the second area has a shape which surrounds the first area in a plan view.3. The display device according to claim 1 , a first electrode disposed in the pixel area;', 'a pixel defining layer disposed between the plurality of pixel areas and having an opening which extends to the first electrode;', 'a light emitting layer disposed on the first electrode and including at least a light generation layer; and', 'a second electrode disposed on the light emitting layer, and, 'wherein each of the ...

DISPLAY PANEL WITH VARYING CONDUCTIVE PATTERN ZONE

An organic electroluminescence display panel includes a substrate, an organic light-emitting layer disposed on the substrate, a first conductive pattern with a plurality of first meshes disposed on the substrate, a second conductive pattern with a plurality of second meshes disposed on the substrate and separated from the first conductive pattern, and a sealant dispensing area overlapped with the first conductive pattern and the second conductive pattern. A distance between two adjacent meshes of the first meshes is different from a distance between two adjacent meshes of the second meshes. 1. An organic electroluminescence display panel , comprising:a substrate;an organic light-emitting layer, disposed on the substrate;a first conductive pattern with a plurality of first meshes disposed on the substrate;a second conductive pattern with a plurality of second meshes disposed on the substrate and separated from the first conductive pattern; anda sealant dispensing area overlapped with the first conductive pattern and the second conductive pattern,wherein a distance between two adjacent meshes of the first meshes is different from a distance between two adjacent meshes of the second meshes.2. The organic electroluminescence display panel according to claim 1 , wherein sizes of the first meshes are smaller than sizes of the second meshes.3. The organic electroluminescence display panel according to claim 1 , wherein at least one of the first conductive pattern and the second conductive pattern is a trace.4. The organic electroluminescence display panel according to claim 3 , wherein each of the first meshes and the second meshes is formed by a plurality of first conductive wires interwoven with a plurality of second conductive wires claim 3 , and the first and second conductive wires in the first conductive pattern are wider than the first and second conductive wires in the second conductive pattern.5. The organic electroluminescence display panel according to claim 4 , ...

ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE

An organic electroluminescence display device includes: a lower electrode that is made of a conductive inorganic material and formed in each of pixels arranged in a matrix in a display area; a light-emitting organic layer that is in contact with the lower electrode and made of a plurality of different organic material layers including a light-emitting layer emitting light; an upper electrode that is in contact with the light-emitting organic layer, formed so as to cover the whole of the display area, and made of a conductive inorganic material; and a conductive organic layer that is in contact with the upper electrode, formed so as to cover the whole of the display area, and made of a conductive organic material. 1. An organic ELECTROLUMINESCENCE display device comprising:a lower electrode that is made of a conductive inorganic material and formed in each of sub-pixels arranged in a matrix in a display area;a light-emitting organic layer that is in contact with the lower electrode and made of a plurality of different organic material layers including a light-emitting layer emitting light;an upper electrode that is in contact with the light-emitting organic layer, formed so as to cover the whole of the display area, and made of a conductive inorganic material; anda conductive organic layer that is in contact with the upper electrode, formed so as to cover the whole of the display area, and made of a conductive organic material.2. The organic electroluminescence display device according to claim 1 , whereinthe conductive organic layer is formed on the inside of the upper electrode in a plan view.3. The organic electroluminescence display device according to claim 1 , further comprising claim 1 , on the conductive organic layer claim 1 , a sealing film that covers the outsides of the conductive organic layer and the upper electrode in the plan view and is made of an inorganic material.4. The organic electroluminescence display device according to claim 1 , whereinthe ...

LIGHT-EMITTING DEVICE

It is an object of the present invention to provide a light-emitting device where periphery deterioration can be prevented from occurring even when an organic insulating film is used as an insulating film for the light-emitting device. In addition, it is an object of the present invention to provide a light-emitting device where reliability for a long period of time can be improved. A structure of an inorganic film, an organic film, and an inorganic film is not continuously provided from under a sealing material under a cathode for a light-emitting element. In addition, penetration of water is suppressed by defining the shape of the inorganic film that is formed over the organic film even when a structure of an inorganic film, an organic film, and an inorganic film is continuously provided under a cathode for a light-emitting element. 1. (canceled)2. A light-emitting device comprising:a first organic insulating layer over a first substrate;a conductive layer over the first organic insulating layer;an anode over the first organic insulating layer;a second organic insulating layer over the conductive layer and the anode;a layer containing a light-emitting material over the second organic insulating layer;a cathode over the layer containing a light-emitting material;a second substrate over the cathode; anda layer configured to keep a gap between the first substrate and the second substrate,wherein the cathode overlaps a first region of the conductive layer with the second organic insulating layer therebetween,wherein the layer configured to keep a gap between the first substrate and the second substrate overlaps the conductive layer with the second organic insulating layer therebetween, andwherein the conductive layer comprises a plurality of openings in a second region which is not overlapped by the cathode.3. The light-emitting device according to claim 2 ,wherein the cathode overlaps with a gap between the conductive layer and the anode.4. The light-emitting device ...

DISPLAY DEVICE AND ELECTRONIC DEVICE

To provide a display device that is suitable for increasing in size, a display device in which display unevenness is suppressed, or a display device that can display an image along a curved surface. The display device includes a first display panel and a second display panel each including a pair of substrates. The first display panel and the second display panel each include a first region which can transmit visible light, a second region which can block visible light, and a third region which can perform display. The third region of the first display panel and the first region of the second display panel overlap each other. The third region of the first display panel and the second region of the second display panel do not overlap each other. 1. A display device comprising:a first display panel; anda second display panel,wherein the first display panel and the second display panel each include a pair of substrates,wherein the first display panel and the second display panel each include a first region, a second region, and a third region,wherein the first region includes a region which can transmit visible light,wherein the second region includes a region which can block visible light,wherein the third region includes a region which can perform display,wherein the display device includes a region in which the third region of the first display panel and the first region of the second display panel overlap each other, andwherein the display device includes a region in which the third region of the first display panel and the second region of the second display panel do not overlap each other.2. The display device according to claim 1 ,wherein the first display panel and the second display panel each include a light-emitting element in the third region, a wiring in the second region along part of an outer edge of the third region, and a sealant in the first region along another part of the outer edge of the third region, andwherein the first region includes a region ...

DISPLAY PANEL

A display panel whose TFT substrate comprises a substrate, a gate layer, a gate dielectric layer, a semiconductor layer, a first electrode layer, a first passivation layer, a second passivation layer, a via and a second electrode layer is provided. The gate layer is disposed on the substrate. The gate dielectric layer is disposed on the gate layer. The semiconductor layer is disposed on the gate dielectric layer. The first electrode layer is disposed on the semiconductor layer. The first and second passivation layers are sequentially disposed on the first electrode layer. The via penetrates the passivation layers to expose the first electrode layer. The second electrode layer is electrically connected to the first electrode layer through the via. The first and second passivation layers have first and second taper angles respectively. The difference between the first and second taper angles is below 30°. 1. A display device , comprising: a substrate;', 'a gate layer disposed on the substrate;', 'a gate dielectric layer disposed on the gate layer;', 'a semiconductor layer disposed on the gate dielectric layer;', 'a first electrode layer disposed on the semiconductor layer;', 'a first passivation layer disposed on the first electrode layer;', 'a second passivation layer disposed on the first passivation layer, wherein the second passivation layer has a via, and the via penetrates the first passivation layer to expose a portion of the first electrode layer; and', 'a second electrode layer disposed on the second passivation layer and electrically connected to the first electrode layer through the via, wherein the via has a sidewall, the first passivation layer has a first taper angle at the sidewall of the via, the second passivation layer has a second taper angle at the sidewall of the via, and the difference between the first taper angle and the second taper angle is greater than 0° and smaller than 30°;, 'a thin-film transistor (TFT) substrate, comprisinga counter ...

DISPLAY DEVICE AND FABRICATING METHOD THEREOF

A display device including an organic light emitting layer, a pixel circuit, and conductive adhesive having a first density and being in electrical communication with the organic light emitting layer and the pixel circuit, wherein during bending certain portions of the conductive adhesive are compressed to a second density higher than the first density and certain other portions of the conductive adhesive are expanded to a third density lower than the first density. 1. A method of fabricating a display device , the method comprising:forming an organic light emitting layer on a first substrate;forming a pixel circuit on a second substrate;forming a conductive adhesive on the pixel circuit; andcoupling the organic light emitting layer and the pixel circuit to each other by adhesion through the use of the conductive adhesive.2. The method of claim 1 , wherein the step of coupling the organic light emitting layer and the pixel circuit to each other comprises disposing the conductive adhesive between the organic light emitting layer and the pixel circuit.3. The method of claim 2 , wherein the organic light emitting layer includes a protrusion protruding in a direction of the pixel circuit claim 2 , the pixel circuit includes a recess claim 2 , and the protrusion is inserted into the recess when the organic light emitting layer and the pixel circuit are coupled to each other.4. The method of claim 3 , wherein the step of forming of the organic light emitting layer comprises:forming a first electrode on the first substrate;forming a pixel defining layer dividing a pixel area on the first substrate;forming an organic emitting layer on the first electrode; andforming a second electrode on the organic emitting layer,wherein the protrusion is the pixel defining layer.5. The method of claim 1 , wherein the step of coupling electrically couples the organic light emitting layer and the pixel circuit to each other.6. The method of claim 1 , further comprising forming a pressure ...

DISPLAY DEVICE

According to one embodiment, a display device includes a substrate, a display element provided on the substrate, a driver provided on the substrate configured to drive the display element and a first wire electrically connected to the display element. The first wire includes a first bent portion projecting in a first direction and provided in a first location, and a second bent portion projecting in a direction opposite to the first direction and provided in a second location different from the first location in the first direction and a second direction crossing the first direction. 1. A display device comprising:a substrate;a display element provided on the substrate;a driver provided on the substrate configured to drive the display element; and a first bent portion projecting in a first direction and provided in a first location; and', 'a second bent portion projecting in a direction opposite to the first direction and provided in a second location different from the first location in the first direction and a second direction crossing the first direction., 'a first wire electrically connected to the display element, the first wire comprising2. The display device of claim 1 ,wherein the first bent portion comprises a first apex in the first location, andwherein the second bent portion comprises a second apex in the second location.3. The display device of claim 1 , a first wire portion,', 'a second wire portion, and', 'a connection portion connecting the first wire portion and the second wire portion., 'wherein the first wire comprising'}4. The display device of claim 3 ,wherein the first wire portion, the second wire portion and the connection portion are formed in a same layer.5. The display device of claim 3 , a first connection portion, and', 'a second connection portion, and, 'wherein the connection portion comprises'}wherein the first bent portion of the first wire portion and the second bent portion of the second wire portion are located between the first ...

ORGANIC LIGHT EMITTING DISPLAY

An organic light emitting display including a first substrate and a second substrate is described. The first substrate has a pixel divided into a light emitting area and a non-light emitting area. The first substrate has an organic light emitting diode disposed in the light emitting area. The second substrate has an infrared sensor disposed corresponding to the non-light emitting area. In the organic light emitting display, the organic light emitting diode emits visible light and infrared light, and the infrared sensor is disposed corresponding to the non-light emitting area. 1. An organic light emitting display , comprising:a first substrate comprising a pixel including a light emitting area and a non-light emitting area, the first substrate having an organic light emitting diode disposed in the light emitting area of the pixel; anda second substrate comprising an infrared sensor disposed corresponding to the non-light emitting area,wherein the organic light emitting diode is configured to emit visible light and infrared light, and the infrared sensor is disposed corresponding to the non-light emitting area.2. The organic light emitting display of claim 1 , wherein the organic light emitting diode includes:a first electrode;a first organic layer disposed on the first electrode; anda second organic layer disposed on the first organic layer,wherein one of the first and second organic layers emits visible light, and the other of the first and second organic layers emits infrared light.4. The organic light emitting display of claim 3 , wherein Ln is one of Yb claim 3 , Nd and Er.5. The organic light emitting display of claim 3 , wherein the light emitted in the organic layer emitting the infrared light is near infrared light.6. The organic light emitting display of claim 2 , wherein the second substrate includes:a base substrate;an infrared sensor disposed on a surface of the base substrate, which faces the first substrate;a protection layer covering the infrared ...

LIGHT EMITTING DEVICE AND ELECTRONIC APPARATUS

A light emitting device which is capable of suppressing deterioration by diffusion of impurities such as moisture, oxygen, alkaline metal and alkaline earth metal, and concretely, a flexible light emitting device which has light emitting element formed on a plastic substrate. On the plastic substrate, disposed are two layers and more of barrier films comprising a layer represented by AlNxOy which is capable of blocking intrusion of moisture and oxygen in a light emitting layer and blocking intrusion of impurities such as an alkaline metal and an alkaline earth metal in an active layer of TFT, and further, a stress relaxation film containing resin is disposed between two layers of barrier films. 1. (canceled)2. A light emitting device comprising:a first substrate having flexibility;a first insulating layer over the first substrate;a first transistor over the first insulating layer;a driver circuit comprising a second transistor over the first insulating layer;a second insulating layer over the driver circuit and the first transistor; a first electrode electrically connected to the first transistor, wherein an end portion of the first electrode is covered with a bank;', 'an organic compound layer over the first electrode; and', 'a second electrode over the organic compound layer,, 'a light emitting element over the second insulating layer, and comprisingan organic material layer over and in direct contact with the second electrode; anda second substrate having flexibility over the organic material layer with a space interposed between the second substrate and the organic material layer,wherein the second electrode covers an end portion of the bank.3. The light emitting device according to claim 2 , further comprising a first layer comprising Al claim 2 , N and O over the first substrate claim 2 , and a second layer comprising Al claim 2 , N and O over the first layer comprising Al claim 2 , N and O claim 2 , wherein at least one of the first layer comprising Al claim ...

ORGANIC LIGHT EMITTING DISPLAY DEVICE

Disclosed is an organic light emitting display device including a dam structure disposed in a non-display area of a substrate and an alignment mark disposed outside the dam structure. The alignment mark is not covered by, and does not overlap with, the dam structure, because the alignment mark is disposed outside the dame structure. Thus, a scribing process may be performed smoothly. 1. An organic light emitting display device comprising:a substrate including an active area including a plurality of pixels to display an image and a non-display area provided outside the active area;a dam structure in the non-display area of the substrate; anda first alignment mark outside the dam structure in the non-display area of the substrate,wherein the dam structure comprises a first portion having a shape that corresponds to the active area and a second portion having a shape that does not correspond to the active area, and the first alignment mark is disposed outside the second portion of the dam structure.2. The organic light emitting display device of claim 1 , wherein the second portion of the dam structure is provided at an edge area of the substrate.3. The organic light emitting display device of claim 1 , wherein the first portion comprises a first dam structure arranged in a first direction and a second dam structure arranged in a second direction claim 1 , and the second portion comprises a third dam structure connected to each of the first dam structure and the second dam structure at an incline.4. The organic light emitting display device of claim 1 , wherein the first alignment mark is provided between a scribing line of the substrate and the dam structure.5. The organic light emitting display device of claim 1 , wherein the first alignment mark substantially overlaps an imaginary line extended from the first portion of the dam structure.6. The organic light emitting display device of claim 1 , further comprising an emission device layer in the active area of the ...

Electroluminescence Display Device and Fabrication Method Thereof

Embodiments of the disclosure disclose an electroluminescence display device and a fabrication method thereof. The device comprises a color filter substrate. The color filter substrate comprises: a first substrate, and a first electrode, an organic electroluminescence layer and a second electrode sequentially provided on the first substrate. The color filter substrate further comprises: a first protective layer, provided on the second electrode and covering the second electrode and the organic electroluminescence layer below the second electrode; and a first connection electrode, provided on the first protective layer and connected to the second electrode. 1. A fabrication method of an electroluminescence display device , comprising: a fabrication process of a color filter substrate ,wherein the fabrication process of the color filter substrate comprises:forming a first electrode, an organic electroluminescence layer and a second electrode on a first substrate;forming a first protective layer on the first substrate on which the first electrode, the organic electroluminescence layer and the second electrode have been formed, the first protective layer covering the second electrode and the organic electroluminescence layer below the second electrode; andforming a first connection electrode on the first substrate on which the first electrode, the organic electroluminescence layer, the second electrode and the first protective layer have been formed, the first connection electrode being connected with the second electrode.2. The fabrication method according to claim 1 , wherein the forming the first protective layer comprises:forming the first protective layer; andforming a protrusion at a position of the first protective layer where the first connection electrode is to be formed and meanwhile forming a first protective layer via-hole at the protrusion by a patterning process.3. The fabrication method according to claim 1 , whereinbefore the forming the first electrode, ...

ORGANIC LIGHT EMITTING DISPLAY DEVICE

Disclosed is an organic light emitting display device including a dam structure disposed in a non-display area of a substrate and an alignment mark disposed outside the dam structure. The alignment mark is not covered by, and does not overlap with, the dam structure, because the alignment mark is disposed outside the dame structure. Thus, a scribing process may be performed smoothly. 120-. (canceled)21. An organic light emitting display device comprising:a substrate including an active area including a plurality of pixels to display an image and a non-display area provided outside the active area;a dam structure in the non-display area of the substrate; anda first alignment mark outside the dam structure in the non-display area of the substrate,wherein the dam structure comprises a first portion having a shape that corresponds to an outermost line of the active area and a second portion having a shape that does not correspond to the outermost line of the active area, andwherein the first alignment mark is located adjacent to two corners of the substrate.22. The organic light emitting display device of claim 21 , wherein the first portion comprises a first dam structure arranged in a first direction and a second dam structure arranged in a second direction claim 21 , the second portion comprises a third dam structure connected to each of the first dam structure and the second dam structure at an incline claim 21 , andwherein the first dam structure comprises a first sealant, a first outer dam bank disposed on an outer side of the first sealant and a first inner dam bank disposed on an inner side of the first sealant, and the second dam structure comprises a second sealant, a second outer dam bank disposed on an outer side of the second sealant and a second inner dam bank disposed on an inner side of the second sealant.23. The organic light emitting display device of claim 22 , wherein the third dam structure comprises a third sealant claim 22 , a third outer dam bank ...

Electronic Device

Provided is an electronic device with high portability and/or high browsability. The electronic device includes first and second support bodies, a first hinge, and a flexible display panel. The first hinge has a first rotation axis and connects the first and second support bodies to each other, and the first and second support bodies are capable of relatively rotating on the first rotation axis. The display panel includes at least first and second portions supported by the first and second support bodies, respectively; the first rotation axis and a first plane including the display surface overlapping with the first portion or a second plane including the display surface overlapping with the second portion are parallel to each other; and each of a distance between the first rotation axis and the first plane or the second plane is greater than zero. 1wherein the display panel comprises a first portion supported by the first support body, a second portion supported by the second support body, and a third portion that is positioned between the first portion and the second portion and has flexibility,wherein the display panel comprises a display surface overlapping with the first portion, the second portion, and the third portion,wherein the first hinge has a first rotation axis and has a function of connecting the first support body and the second support body to each other,wherein the first support body and the second support body have a function of relatively rotating on the first rotation axis,wherein the first rotation axis and a first plane including the display surface overlapping with the first portion are parallel to each other,wherein the first rotation axis and a second plane including the display surface overlapping with the second portion are parallel to each other,wherein a distance between the first plane and the first rotation axis is greater than zero, andwherein a distance between the second plane and the first rotation axis is greater than zero.. An ...

Light Emitting Device and Manufacturing Method of the Same

The present invention is directed to a light emitting device structured so as to increase the amount of light which is taken out in a certain direction after emitted from a light emitting element, and a method of manufacturing this light emitting device. An upper end portion of an insulating material that covers an end portion of a first electrode is fowled to have a curved surface having a radius of curvature, a second electrode is formed to have a slant face as going from its center portion toward its end portion along the curved surface. Light emitted from a light emitting layer comprising an organic material that is formed on the second electrode is reflected at the slant face of the second electrode to increase the total amount of light taken out in the direction indicated by the arrow in FIG. A. 1. (canceled)2. A light emitting device comprising:a transistor supported by a first substrate;a conductive layer electrically connected to an external input terminal;a first insulating layer over the transistor; [ 'a light emitting layer over the first electrode; and', 'a first electrode over the first insulating layer, wherein the first electrode is electrically connected to one of a source electrode and a drain electrode of the transistor;'}, 'a second electrode over the light emitting layer;, 'a light emitting element comprisinga second insulating layer over the first electrode and the conductive layer;a second substrate over the first substrate so that the light emitting layer is located between the first substrate and the second substrate; anda sealing material formed between the first substrate and the second substrate in a region along peripheries of the first substrate and the second substrate,wherein the second insulating layer includes an opening where the sealing material is in direct contact with the conductive layer, the opening being overlapped with the second substrate.3. The light emitting device according to claim 2 ,wherein the second insulating ...

LIGHT EMITTING ELEMENT, ORGANIC LIGHT EMITTING DISPLAY DEVICE HAVING THE SAME AND METHOD OF MANUFACTURING THE SAME

A light emitting element includes: a first electrode, a hole injection layer disposed on the first electrode; a hole transport layer disposed on the hole injection layer; a light emitting layer disposed on the hole transport layer, where the light emitting layer includes a light emission host and a light emission dopant; an electron transport layer disposed on the light emitting layer; an electron injection layer disposed on the electron transport layer; and a second electrode disposed on the electron injection layer. 1. A light emitting element comprising:a first electrode;a hole injection layer disposed on the first electrode;a hole transport layer disposed on the hole injection layer;a light emitting layer disposed on the hole transport layer, wherein the light emitting layer comprises a light emission host and a light emission dopant;an electron transport layer disposed on the light emitting layer;an electron injection layer disposed on the electron transport layer; anda second electrode disposed on the electron injection layer.2. The light emitting element of claim 1 , wherein the light emission host and the light emission dopant of the light emitting layer are in a weight ratio of about 85:15 to about 90:10.3. The light emitting element of claim 2 , wherein the light emitting layer has a thickness in a range of about 30 nanometers to about 50 nanometers.4. The light emitting element of claim 1 , further comprising:a host layer disposed between the hole transport layer and the light emitting layer, wherein the host layer comprises a light emission host.5. The light emitting element of claim 4 , further comprising:a first intermediate layer disposed between the first electrode and the hole injection layer, wherein the first intermediate layer comprises a pyrazine compound.6. The light emitting element of claim 5 , wherein the pyrazine compound of the first intermediate layer comprises a hexaazatriphenylene compound.7. The light emitting element of claim 6 , ...

DISPLAY DEVICES

A display device includes a substantially planar semiconductor package. The semiconductor package drives unit display elements of the display device. The semiconductor package is not folded and has a flat structure. Thus, the occurrence of defects and/or errors in the display device may be reduced as compared to display devices including folded non-planar semiconductor packages. As a result, reliability of the display device may be improved. 1. A display device comprising:a display substrate including a display region and a non-display region;a plurality of unit display elements disposed on the display substrate in the display region;a first connection terminal disposed on the display substrate in the non-display region, the first connection terminal electrically connected to at least one of the unit display elements;a circuit substrate disposed on the display substrate in the non-display region; anda semiconductor package disposed on the display substrate in the non-display region, the semiconductor package electrically connecting the circuit substrate to the first connection terminal,wherein the semiconductor package is flat.2. The display device of claim 1 , a package substrate;', 'a second connection terminal on a bottom surface of the package substrate;', 'third and fourth connection terminals spaced apart from each other on a top surface of the package substrate; and', 'a through-via penetrating the package substrate to electrically connect the second connection terminal to the third connection terminal, and, 'wherein the semiconductor package compriseswherein the first connection terminal is electrically connected to the second connection terminal, and the circuit substrate is electrically connected to the fourth connection terminal.3. The display device of claim 2 , further comprising:a first interconnecting member disposed between the first and second connection terminals to electrically connect the first connection terminal to the second connection ...

DISPLAY PANEL AND APPARATUS, AND FABRICATING METHOD THEREOF

The present application describes a display panel having a plurality of subpixels. Each of the plurality of subpixels has a light blocking region and a light transmissive region surrounding the light blocking region. Each of the plurality of subpixels in the light blocking region includes a first base substrate and a second base substrate facing each other; a first light emitting element and a first reflective block on a side of the first base substrate proximal to the second base substrate; and a second reflective block on a side of the second base substrate proximal to the first base substrate. The first reflective block and the second reflective block are configured to reflect light emitted from the first light emitting element to the light transmissive region thereby displaying an image. 1. A display panel having a plurality of subpixels:wherein each of the plurality of subpixels has a light blocking region and a light transmissive region surrounding the light blocking region;each of the plurality of subpixels in the light blocking region comprises:a first base substrate and a second base substrate facing each other;a first light emitting element and a first reflective block on a side of the first base substrate proximal to the second base substrate; anda second reflective block on a side of the second base substrate proximal to the first base substrate; andwherein the first reflective block and the second reflective block are configured to reflect light emitted from the first light emitting element to the light transmissive region thereby displaying an image.2. The display panel of claim 1 , wherein each of the plurality of subpixels in the light blocking region further comprises a first black matrix block between the first reflective block and the first base substrate; andan orthographic projection of the first black matrix block on the first base substrate substantially covers an orthographic projection of the first light emitting element on the first base ...

METHOD OF MANUFACTURING AN ORGANIC EL DISPLAY DEVICE

A method of manufacturing an organic EL display device includes disposing a second base material that is disposed to face a first base material having a display region and including a TFT layer on a supporting substrate that supports the second base material, disposing the first base material on a side opposite to a side where the supporting substrate of the second base material is disposed, disposing a dam material that surrounds the display region between the first base material and the second base material, filling an inside of the dam material with a filling material between the first base material and the second base material, disposing an auxiliary wall to be separated from an outside of the dam material between the first base material and the second base material, and cutting the second base material through the supporting substrate between the dam material and the auxiliary wall. 1. A method of manufacturing an organic EL display device , the method comprising:disposing a second base material that is disposed to face a first base material having a display region and including a TFT layer on a supporting substrate that supports the second base material;disposing the first base material on a side opposite to a side where the supporting substrate of the second base material is disposed;disposing a dam material that surrounds the display region between the first base material and the second base material;filling an inside of the dam material with a filling material between the first base material and the second base material;disposing an auxiliary wall to be separated from an outside of the dam material between the first base material and the second base material; andcutting the second base material through the supporting substrate between the dam material and the auxiliary wall.2. The method of manufacturing an organic EL display device according to claim 1 , further comprising:forming a protrusion portion in a region of the first base material where the ...

DISPLAY APPARATUS

Provided is a display apparatus and a method of manufacture. The display apparatus includes a first substrate with a plurality of organic electroluminescence devices, a second substrate with a color filter, the second substrate facing the first substrate, and an adhesive layer disposed between the first substrate and the second substrate so as to cover the plurality of organic electroluminescence devices, the adhesive layer being made of a material selected from the group consisting of a phenol resin, a melanin resin, an unsaturated polyester resin, an epoxy resin, a silicon resin and a polyurethane resin. 1. A method of manufacturing a display apparatus , the method comprising: providing a first electrode,', 'providing one or more organic layers including a light-emitting layer on the first electrode, and', 'providing a second electrode on the one or more organic layers,, 'providing a plurality of organic electroluminescence devices on a drive panel, each organic electroluminescence device formed byproviding an adhesive member on the plurality of organic electroluminescence devices, the adhesive member including a first adhesive portion that is comprised of an ultraviolet curing material and a second adhesive portion that is comprised of a heat-curable material, andproviding a sealing panel on a least a portion of the adhesive member, the sealing panel seals and faces the drive panel at a side of the second electrode.2. The method of manufacturing a display apparatus according to claim 1 , wherein the first adhesive portion is provided so that at least one peripheral edge is exposed.3. The method of manufacturing a display apparatus according to claim 2 , wherein the second adhesive member is provided so that at least one peripheral edge is exposed.4. The method of manufacturing a display apparatus according to claim 1 , wherein the second adhesive portion is provided to cover the plurality of organic electroluminescence devices and extends from the drive panel to ...

DISPLAY PANEL

A display panel includes an upper display substrate, a lower display substrate, and a partition wall. The upper display substrate includes a display area and a non-display area adjacent to the display area. The display area includes pixel areas and a light blocking area adjacent to the pixel areas. The lower display substrate includes display elements configured to emit light having a first color and respectively overlapping the pixel areas. The partition wall includes a partition wall part overlapping the light blocking area and a reflection part disposed on the partition wall part. The upper display substrate includes a base substrate, a color filter layer disposed on the base substrate, and a light control layer disposed on the color filter layer. The light control layer is configured to control the light having the first color. The partition wall is disposed on the light control layer. 1. A display panel comprising:an upper display substrate comprising a display area and a non-display area adjacent to the display area, the display area comprising pixel areas and a light blocking area adjacent to the pixel areas;a lower display substrate comprising display elements configured to emit light having a first color and respectively overlapping the pixel areas; anda partition wall comprising a partition wall part overlapping the light blocking area and a reflection part disposed on the partition wall part, a base substrate;', 'a color filter layer disposed on the base substrate; and', 'a light control layer disposed on the color filter layer and configured to control the light having the first color, and, 'wherein the upper display substrate compriseswherein the partition wall is disposed on the light control layer.2. The display panel of claim 1 , wherein the partition wall is spaced a predetermined distance from the lower display substrate.3. The display panel of claim 2 , wherein:a height between the light control layer and the lower display substrate is defined as ...

ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE

An organic light emitting device includes a first substrate including a display area and a non-display area, and a dummy metal layer disposed o the first substrate in the non-display area. The dummy metal layer includes a first dummy metal layer and a second dummy metal layer that overlap each other. The organic light emitting device further includes an insulating layer disposed between the first dummy metal layer and the second dummy metal layer in a cross-sectional view, a second substrate covering the first substrate, and a sealant disposed between the first substrate and the second substrate and overlapping the dummy metal layer. The first dummy metal layer is electrically connected to the second dummy metal layer, and the sealant contacts the second dummy metal layer. 1. An organic light emitting device , comprising:a first substrate comprising a display area and a non-display area;a dummy metal layer disposed on the first substrate in the non-display area, wherein the dummy metal layer comprises a first dummy metal layer and a second dummy metal layer, and the first dummy metal layer and the second dummy metal layer overlap each other;an insulating layer disposed between the first dummy metal layer and the second dummy metal layer in a cross-sectional view;a second substrate covering the first substrate; anda sealant disposed between the first substrate and the second substrate and overlapping the dummy metal layer,wherein the first dummy metal layer is electrically connected to the second dummy metal layer, and the sealant contacts the second dummy metal layer.2. The organic light emitting device of claim 1 , whereinthe insulating layer comprises a first contact hole overlapping at least a part of the first dummy metal layer, andthe second dummy metal layer is disposed on the insulating layer and is connected to the first dummy metal layer through the first contact hole.3. The organic light emitting device of claim 1 , wherein a resistivity of the second ...

DISPLAY APPARATUS

Provided is a display apparatus and a method of manufacture. The display apparatus includes a first substrate with a plurality of organic electroluminescence devices, a second substrate with a color filter, the second substrate facing the first substrate, and an adhesive layer disposed between the first substrate and the second substrate so as to cover the plurality of organic electroluminescence devices, the adhesive layer being made of a material selected from the group consisting of a phenol resin, a melanin resin, an unsaturated polyester resin, an epoxy resin, a silicon resin and a polyurethane resin. 1. A display apparatus , comprising: a first electrode,', 'one or more organic layers including a light-emitting layer, and', 'a second electrode;, 'a drive panel including a plurality of organic electroluminescence devices, each organic electroluminescence device including'}a sealing panel that seals and faces the drive panel at a side of the second electrode; anda heat-curable adhesive that covers the plurality of organic electroluminescence devices, and that extends from the drive panel to the sealing panel.2. The display apparatus according to claim 1 , wherein a peripheral edge of the adhesive is exposed. The present application is a continuation application of U.S. patent application Ser. No. 15/221,197, filed on Jul. 27, 2016, which application is a divisional application of U.S. patent application Ser. No. 14/498,349, filed on Sep. 26, 2014, which application is a continuation of U.S. patent application Ser. No. 14/185,574 filed on Feb. 20, 2014, and issued as U.S. Pat. No. 8,896,203 on Nov. 25, 2014, which is a continuation of U.S. patent application Ser. No. 13/707,194 filed on Dec. 6, 2012, which is a continuation of U.S. patent application Ser. No. 13/456,320 filed on Apr. 26, 2012 and issued as U.S. Pat. No. 8,519,622 on Aug. 27, 2013, which is a continuation of U.S. application Ser. No. 12/873,983 filed on Sep. 1, 2010 and issued as U.S. Pat. No. 8, ...

ORGANIC LIGHT-EMITTING DISPLAY APPARATUS

An organic light-emitting display apparatus includes: a first substrate; an insulating layer on the first substrate; a signal wiring on the insulating layer; an organic light-emitting device on the first substrate, the organic light-emitting device defining an active area and including a first electrode, a second electrode, and an intermediate layer between the first and second electrodes; a passivation layer on the insulating layer; and a metal layer on the passivation layer at an outer region adjacent to the active area, separated from the first electrode, and contacting the second electrode and the signal wiring, wherein a first opening is in the passivation layer at the outer region, and the metal layer contacts the insulating layer at the first opening. 1. An organic light-emitting display apparatus comprising:a substrate;a first insulating layer on the substrate;a signal wiring on the first insulating layer;a second insulating layer on the substrate and including a first opening, the second insulating layer being separated by the first opening;an organic light-emitting device on the second insulating layer, the organic light-emitting device defining an active area and comprising a first electrode, a second electrode, and an intermediate layer between the first and second electrodes;a conductive layer on the second insulating layer outside the active area;a third insulating layer covering a part of the first electrode; anda circuit unit located below the second insulating layer and outside the active area, the circuit unit comprising a plurality of thin-film transistors.2. The organic light-emitting display apparatus of claim 1 , wherein the first opening and the second electrode overlap in a plan view.3. The organic light-emitting display apparatus of claim 1 , wherein the first opening and the conductive layer overlap in a plan view.4. The organic light-emitting display apparatus of claim 1 , wherein the first opening claim 1 , the second electrode and the ...

DISPLAY DEVICE

A display device is provided. The display device includes a substrate, a driving transistor, a first insulation layer, a first electrode and a second insulation layer. The driving transistor is disposed on the substrate and includes a gate electrode, and the gate electrode projects a first projection profile on the substrate. The first insulation layer is disposed on the driving transistor. The first electrode is disposed on the first insulation layer, and projects a second projection profile on the substrate. The second insulation layer is disposed on the first electrode and the first insulation layer. The second insulation layer has an opening, the opening exposes a portion of the first electrode, and the opening projects a third projection profile on the substrate. 1. A display device , including an illumination area , and comprising:a substrate;a power line disposed on the substrate; anda driving transistor disposed on the substrate, the driving transistor comprising a gate electrode, wherein in view of a first direction perpendicular to the substrate, the gate electrode partially overlaps the power line; andwherein in view of the first direction, the gate electrode is separated from the illumination area.2. The display device as claimed in claim 1 , wherein the power line is electrically connected to the driving transistor.3. The display device as claimed in claim 1 , comprising an illumination transistor claim 1 , wherein the driving transistor includes a first active layer claim 1 , the illumination transistor includes a second active layer claim 1 , and the second active layer is connected to the first active layer.4. The display device as claimed in claim 3 , wherein the first active layer and the second active layer are of the same layer.5. The display device as claimed in claim 3 , comprising an electrode coupled to the illumination transistor.6. The display device as claimed in claim 5 , wherein the electrode is an anode.7. The display device as claimed ...

LIGHT-EMITTING DEVICE AND INPUT/OUTPUT DEVICE

To provide a light-emitting device or an input/output device with little unevenness in display luminance or high reliability and to provide an input/output device with high detection sensitivity, a light-emitting device is configured to include a first substrate, a light-emitting element over the first substrate, a first conductive layer over the light-emitting element, a first insulating layer over the first conductive layer, a second conductive layer over the first insulating layer, and a second substrate over the second conductive layer. The light-emitting element includes a first electrode over the first substrate, a layer containing a light-emitting organic compound over the first electrode, and a second electrode over the layer containing a light-emitting organic compound. The second electrode is electrically connected to the first and second conductive layers. The first conductive layer and the second electrode transmit light emitted from the light-emitting element. The resistance of the second conductive layer is lower than that of the second electrode. 1. A light-emitting device comprising:a first substrate;a light-emitting element over the first substrate;a first conductive layer over the light-emitting element;a first insulating layer over the first conductive layer;a second conductive layer over the first insulating layer; anda second substrate over the second conductive layer,wherein the light-emitting element comprises a first electrode over the first substrate, a light-emitting layer over the first electrode, and a second electrode over the light-emitting layer,wherein the second electrode, the first conductive layer, and the second conductive layer are electrically connected to each other, andwherein the first conductive layer and the second electrode are configured to transmit light emitted from the light-emitting element.2. The light-emitting device according to claim 1 , wherein a resistance of the second conductive layer is lower than a ...

ORGANIC LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING THE SAME

Disclosed is an organic light emitting device and a method of manufacturing the same, wherein the organic light emitting device is decreased in its thickness, and also decreased in its radius of curvature so as to realize the flexible device, and the organic light emitting device comprising a first component including a first plurality of layers, the first plurality of layers including a thin film transistor layer deposited on a surface of a first substrate, an emitting component layer deposited on the thin film transistor layer, and a passivation layer deposited on the emitting component layer; a second component including a second plurality of layers that are deposited on a surface of a second substrate without using an adhesive; and an adhesion layer between the first component and the second component, the adhesion layer coupling together the first component and the second component. 1. A method of manufacturing an organic light emitting device comprising:forming a first component including a first plurality of layers, the first plurality of layers including a thin film transistor layer deposited on a surface of a first substrate, an emitting component layer deposited on the thin film transistor layer, and a passivation layer deposited on the emitting component layer;forming a second component including a second plurality of layers, the second plurality of layers deposited on a surface of a second substrate without using an adhesive contacting the surface of the second substrate and at least one of the second plurality of layers, the second plurality of layers including a touch sensor deposited on the second substrate and a color filter layer deposited on the touch sensor or the second plurality of layers including the color filter layer deposited on the second substrate and the touch sensor deposited on the color filter layer; andforming an adhesion layer between the first component and the second component, the adhesion layer coupling together the first ...

ORGANIC ELECTROLUMINESCENT DEVICE, ILLUMINATION APPARATUS, AND ILLUMINATION SYSTEM

An organic electroluminescent device includes first and second electrode and an organic light-emitting layer. The first electrode has an upper face. The organic light-emitting layer is provided on the upper face. The second electrode is provided on the organic light-emitting layer. The second electrode includes first and second extension parts. The first extension parts extend in a first direction and are arranged in a second direction. The second extension parts extend in the second direction and are arranged in the first direction. When a length of the first extension parts in the second direction is W, a pitch of the first extension parts is P, a length of the second extension parts in the first direction is W, and a pitch of the second extension parts is P. W and P satisfy a relationship of W≦−750(1−W/P)(1−W/P)+675. W and P satisfy a relationship of W≦−−750(1−W/P)(1−W/P)+675.

ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE

An organic electroluminescence display device includes: a lower electrode that is made of a conductive inorganic material and formed in each of pixels arranged in a matrix in a display area; a light-emitting organic layer that is in contact with the lower electrode and made of a plurality of different organic material layers including a light-emitting layer emitting light; an upper electrode that is in contact with the light-emitting organic layer, formed so as to cover the whole of the display area, and made of a conductive inorganic material; and a conductive organic layer that is in contact with the upper electrode, formed so as to cover the whole of the display area, and made of a conductive organic material. 1. An organic electroluminescence display device comprising:a first electrode;a first organic layer on the first electrode and includes a light-emitting layer;a second electrode on the first organic layer;a second organic layer on the second electrode; anda first inorganic layer on the second organic layer,wherein the second organic layer is sandwiched by the second electrode and the first inorganic layer.2. An organic electroluminescence display device according to claim 1 , wherein the first inorganic layer covers an edge of the first organic layer in plan view.3. An organic electroluminescence display device according to claim 1 , wherein the first inorganic layer covers an edge of the second organic layer in plan view.4. The organic electroluminescence display device according to claim 1 , further comprising a second inorganic layer on the first inorganic layer.5. The organic electroluminescence display device according to claim 1 , wherein the second organic layer is thicker than the first inorganic layer.6. The organic electroluminescence display device according to claim 1 , further comprising an insulating film having an opening claim 1 ,wherein the insulating film is on the first electrode and covers an edge portion of the first electrode.7. The ...

ORGANIC LIGHT EMITTING DIODE DISPLAY

An organic light emitting diode display is provided that may include a first substrate, a plurality of electrodes on the first substrate and spaced apart from each other, a pixel defining layer on the plurality of electrodes, spacers on the pixel defining layer, and a second substrate on the spacers. The pixel defining layer includes a plurality of openings spaced apart from each other and respectively open to the plurality of electrodes. The spacers on the pixel defining layer are at crossing points of a plurality of virtual lines, the spacers crossing spaces between adjacent openings of the plurality of openings. 120.-. (canceled)21. An organic light emitting diode display , comprising:a first substrate;a plurality of electrodes on the first substrate and spaced apart from each other;a pixel defining layer on the plurality of electrodes, the pixel defining layer including a plurality of openings spaced apart from each other and respectively open to the plurality of electrodes;spacers on the pixel defining layer in spaces between adjacent openings of the plurality of openings, the spacers crossing the spaces; anda second substrate on the spacers,wherein each spacer includes:a main body having a center point in one of the spaces between the adjacent openings of the plurality of openings; andprotrusions protruding from the main body toward the spaces between the adjacent openings,wherein the main body has a quadrangular shape, and each protrusion has a triangular shape, andwherein each protrusion has a different area.22. The organic light emitting diode display as claimed in claim 21 , further comprising:a first common layer on the electrodes and the spacers;organic light emission layers on the first common layer corresponding to the plurality of openings; anda second common layer on the first common layer, and on the light emission layers and the spacers.23. An organic light emitting diode display claim 21 , comprising: a plurality of first electrodes on the first ...

Light emitting element and display device including light emitting element

A light emitting element 10 includes a base body 26, a first electrode 31 formed on the base body 26, an organic layer 33 formed on the first electrode 31 and having at least a light emitting layer, and a second electrode 32 formed on the organic layer 33. The second electrode 32 has at least two edge portions 32A and 32B opposed to each other, and each of the edge portions 32A and 32B of the second electrode 32 protrudes from an end face 33′ of the organic layer 33.

Light Emitting Device and Manufacturing Method of the Same

The present invention is directed to a light emitting device structured so as to increase the amount of light which is taken out in a certain direction after emitted from a light emitting element, and a method of manufacturing this light emitting device. An upper end portion of an insulating material that covers an end portion of a first electrode is formed to have a curved surface having a radius of curvature, a second electrode is formed to have a slant face as going from its center portion toward its end portion along the curved surface. Light emitted from a light emitting layer comprising an organic material that is formed on the second electrode is reflected at the slant face of the second electrode to increase the total amount of light taken out in the direction indicated by the arrow in FIG. A. 1. (canceled)2. A light emitting device comprising:a transistor supported by a first substrate;a conductive layer electrically connected to an external input terminal;a first insulating layer over the transistor; a first electrode over the first insulating layer, wherein the first electrode is electrically connected to one of a source electrode and a drain electrode of the transistor;', 'a light emitting layer over the first electrode; and', 'a second electrode over the light emitting layer;, 'a light emitting element comprisinga second insulating layer over the first electrode and the conductive layer;a second substrate over the first substrate so that the light emitting layer is located between the first substrate and the second substrate; anda sealing material formed between the first substrate and the second substrate in a region along peripheries of the first substrate and the second substrate,wherein the first electrode includes a first layer and a second layer over the first layer,wherein an edge of the first layer extends beyond an edge of the second layer,wherein the second insulating layer includes a slant face,wherein the second layer includes a slant face, ...

Display panel

A display panel includes: a first substrate having a top surface and a side surface, the top surface including a display area and a non-display area outside the display area; a second substrate facing the first substrate; a first insulating structure disposed between the second substrate and the first substrate, wherein the first insulating structure overlaps the non-display area without overlapping the display area; a pixel disposed between the first substrate and the second substrate and overlapping the display area; a signal line having a side surface substantially aligned with the side surface of the first substrate, wherein the signal line is disposed on the first substrate; a second insulating structure overlapping the signal line and disposed between the first substrate and the first insulating structure, wherein the second insulating structure has a side surface substantially aligned with the side surface of the first substrate; and a connection pad being in contact with the side surface of the signal line. The second insulating structure includes an organic pattern overlapping the non-display area without overlapping the display area.

ORGANIC ELECTROLUMINESCENCE DISPLAY DEVICE HAVING A CONDUCTIVE ORGANIC LAYER IN CONTACT WITH AN UPPER ELECTRODE

An organic electroluminescence display device includes: a lower electrode that is made of a conductive inorganic material and formed in each of pixels arranged in a matrix in a display area; a light-emitting organic layer that is in contact with the lower electrode and made of a plurality of different organic material layers including a light-emitting layer emitting light; an upper electrode that is in contact with the light-emitting organic layer, formed so as to cover the whole of the display area, and made of a conductive inorganic material; and a conductive organic layer that is in contact with the upper electrode, formed so as to cover the whole of the display area, and made of a conductive organic material.

OLED DEVICE MANUFACTURE METHOD AND OLED DEVICE

An OLED (Organic Light-Emitting Diode) device manufacture method and an OLED device are provided. The method includes steps of sequentially forming a TFT (Thin Film Transistor) array layer, a negative electrode layer, an electron transport layer, a light-emitting layer, and a hole transport layer on a first substrate; forming a first electron gluing layer on the hole transport layer; sequentially forming a positive electrode layer and a hole injection layer on a second substrate; forming a second electron gluing layer on the hole injection layer; and adhering and connecting the first electron gluing layer and the second electron gluing layer. 1. An OLED (Organic Light-Emitting Diode) device manufacture method , comprising steps of:sequentially forming a TFT (Thin Film Transistor) array layer, a negative electrode layer, an electron transport layer, a light-emitting layer, and a hole transport layer on a first substrate;forming a first electron gluing layer on the hole transport layer;sequentially forming a positive electrode layer and a hole injection layer on a second substrate;forming a second electron gluing layer on the hole injection layer; andadhering and connecting the first electron gluing layer and the second electron gluing layer.2. The OLED device manufacture method according to claim 1 , wherein the step of adhering and connecting the first electron gluing layer and the second electron gluing layer comprises:aligning and pressing the first substrate and the second substrate together under a vacuum condition to make the first electron gluing layer and the second electron gluing layer attached and adhered to each other.3. The OLED device manufacture method according to claim 1 , wherein the step of sequentially forming the TFT array layer claim 1 , the negative electrode layer claim 1 , the electron transport layer claim 1 , the light-emitting layer claim 1 , and the hole transport layer on the first substrate comprises:disposing the TFT array layer on the ...

ORGANIC LIGHT EMITTING DIODE DISPLAY PANEL AND ORGANIC LIGHT EMITTING DIODE DISPLAY DEVICE CONTAINING THE SAME

An organic light emitting diode display panel is disclosed, which includes: a first substrate, having a display region and a non-display region; an organic light emitting layer disposed above the first substrate; and a plurality of spacers disposed above the first substrate, the spacers including a first spacer, a second spacer, a third spacer and a fourth spacer, the first spacer and the second spacer being adjacently located in the display region, and the third spacer and the fourth spacer being adjacently located in the non-display region, wherein a first minimum distance is between the first spacer and the second spacer, a second minimum distance is between the third spacer and the fourth spacer, and the first minimum distance is different from the second minimum distance. In addition, the present invention also disclosed an organic light emitting diode display device including the same. 1. An organic light emitting diode display panel , comprising:a first substrate, having a display region and a non-display region;an organic light emitting layer disposed above the first substrate; anda plurality of spacers disposed above the first substrate, the spacers comprising a first spacer, a second spacer, a third spacer and a fourth spacer, the first spacer and the second spacer being adjacently located in the display region, and the third spacer and the fourth spacer being adjacently located in the non-display region,wherein a first minimum distance is between the first spacer and the second spacer, a second minimum distance is between the third spacer and the fourth spacer, and the first minimum distance is different from the second minimum distance.2. The organic light emitting diode display panel as claimed in claim 1 , wherein at least one of the spacers has a surface claim 1 , which is rough.3. The organic light emitting diode display panel as claimed in claim 1 , wherein the first spacer and the second spacer are arranged along a direction claim 1 , and the third ...

DISPLAY DEVICE

A display device includes at least one light-emitting element configured to emit blue light, a red conversion layer disposed on an upper or lower portion of the at least one light-emitting element and including a red light-emitting quantum dot, a green conversion layer disposed on the upper or lower portion of the at least one light-emitting element and including a green light-emitting phosphor, and a substrate comprising thin film transistors electrically connected to the light-emitting element. 1. A display device comprising:at least one light-emitting element configured to emit blue light;a red conversion layer disposed on an upper or lower portion of the at least one light-emitting element and comprising a red light-emitting quantum dot;a green conversion layer disposed on the upper or lower portion of the at least one light-emitting element and comprising a green light-emitting phosphor; anda substrate comprising thin film transistors electrically connected to the light-emitting element.2. The display device of claim 1 , wherein the light-emitting element comprises an inorganic light-emitting diode or an organic light-emitting diode.3. The display device of claim 1 , wherein the light-emitting element comprises a first electrode claim 1 , an emission layer on the first electrode claim 1 , and a second electrode on the emission layer.4. The display device of claim 3 , further comprising at least one functional layer for improving hole injection and transport capability between the first electrode and the emission layer.5. The display device of claim 3 , further comprising at least one functional layer for improving electron injection and transport capability between the second electrode and the emission layer.6. The display device of claim 1 , wherein the red conversion layer is made of a composite of the red light-emitting quantum dot and a polymer.7. The display device of claim 1 , wherein the green conversion layer is made of a composite of the green light- ...