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Particular nonoptical film or layer (e.g., adhesive layer, barrier layer)

Subclass of:

349 - Liquid crystal cells, elements and systems

349056000 - PARTICULAR STRUCTURE

349084000 - Having significant detail of cell structure only

Patent class list (only not empty are listed)

Deeper subclasses:

Class / Patent application numberDescriptionNumber of patent applications / Date published
349123000 Alignment layer 468
349138000 Insulating layer 123
349137000 Antireflection layer 18
Entries
DocumentTitleDate
20100157217Polycarbonate Resin Composition with Excellent Flame Retardancy and Light Stability - A thermoplastic polycarbonate resin composition which can have excellent light stability and flame retardancy includes about 100 parts by weight of a polycarbonate base resin (A); about 0.1 to about 5 parts by weight of a polyorganosiloxane-containing graft copolymer (B); about 5 to about 50 parts by weight of titanium dioxide (C); and about 0.1 to about 5 parts by weight of a fluorinated polyolefin-based resin (D). The thermoplastic polycarbonate resin composition may further include about 5 to about 50 parts by weight of a filler (E).06-24-2010
20130077033FLEXIBLE FLAT DEVICE AND METHOD OF MANUFACTURING FLEXIBLE SUBSTRATE STRUCTURE AND FLEXIBLE FLAT DEVICE - A method of manufacturing a flexible substrate structure includes the following steps. A first loading substrate having a center area and a peripheral area is provided. A first adhesive layer is formed on the center area of the first loading substrate, and a second adhesive layer is formed on the peripheral area of the first loading substrate. The first flexible substrate is adhered to the first loading substrate by the first adhesive layer and the second adhesive layer to form a flexible substrate structure, wherein the adhesive force between the first flexible substrate and the second adhesive layer is stronger than that between the first flexible substrate and the first adhesive layer. The flexible substrate structure is cut, and the first flexible substrate is separated from the flexible substrate structure.03-28-2013
20130077034Liquid Crystal Display Device and Method for Manufacturing the Same - Disclosed are an LCD device and a method of manufacturing the same, in which a passivation layer and a pixel electrode are simultaneously formed by a single mask process using a half tone mask, and thus, manufacturing efficiency increases, and a defective contact due to loss of the pixel electrode can be prevented in a pad area. The LCD device includes a pad part including a pad area and a contact area. The LCD device includes a pixel pad formed in the pad area, a pixel bar formed in the contact area, and a bridge layer contacting the pixel pad with the pixel bar. The bridge layer is formed as a single layer or multi layers, and formed of one or more of a transparent conductive material and an opaque conductive material.03-28-2013
20130077032LIQUID CRYSTAL DISPLAY DEVICE, LIQUID CRYSTAL PANEL AND METHOD FOR MANUFACTURING THE SAME - A liquid crystal display device, a liquid crystal panel and a method for manufacturing the same, the liquid crystal panel comprises a first substrate, a second substrate, a liquid crystal and a sealant sandwiched between the first substrate and the second substrate. A display area constituted by an arrangement of a plurality of devices and ITO areas, and a surrounding area around the display area are formed on the second substrate. Metal lines are arranged and disposed on the second substrate for electrically connecting to the devices. In addition, parts of the metal lines on the surrounding area are curved and extended, an ITO layer is formed on the parts of the metal lines on the surrounding area, and a bottom of the sealant is adhered with an upper surface of the ITO layer.03-28-2013
20090122244LIQUID CRYSTAL DISPLAY PANEL AND METHOD OF MANUFACTURING THE LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel has a pair of opposed substrates, a seal material and a liquid crystal material. The seal material bonds the pair of substrates to each other, and is formed into a closed curve shape enclosing a region including a pixel region. The liquid crystal material is filled in a region enclosed by the pair of substrates and the seal material. A surface of interface which is a surface made up of at least one substrate of the pair of substrates, and which is in contact with the liquid crystal material in a frame region enclosed by an outer periphery of the pixel region and an inner periphery of the seal material, includes a low wettability structure in which wettability to the liquid crystal material is lower than that of the surface of the one substrate in the pixel region.05-14-2009
20100118244METHOD OF MANUFACTURING SPACER FOR LIQUID CRYSTAL DISPLAY DEVICE, SUBSTRATE FOR LIQUID CRYSTAL DISPLAY DEVICE HAVING SPACER MANUFACTURED BY THE METHOD AND LIQUID CRYSTAL DISPLAY DEVICE HAVING THE SAME - The present invention provides a method of manufacturing a spacer for a liquid crystal display device that includes a step a) of forming a spacer body on a substrate body and a step b) forming a passivation film on the spacer body, a substrate for a liquid crystal display device having the spacer manufactured by the method, and a liquid crystal display device having the substrate for the liquid crystal display device.05-13-2010
20100118245RESIN COMPOSITION AND IMAGE DISPLAY DEVICE - An image display device has an image display part and a protective part on the image display part. The image display device suppresses image unevenness and cured resin peeling caused by internal stress generated due to curing shrinkage of a cured resin between the protective part and the image display part or external stress applied on the image display part due to warping of the protective part. A cured resin layer is arranged between the image display part and the protective part. The cured resin layer has a light transmittance in the visible region of 90% or more, an elongation ratio of 700% or more at 25° C. and 400% or more at 80° C., and an adhesive force with respect to the protective part of 0.4 N/cm or more at 25° C. and 0.3 N/cm or more at 80° C.05-13-2010
20100073615LIQUID CRYSTAL DISPLAY DEVICE AND FABRICATION METHOD THEREOF - A liquid crystal display device including a first substrate and a second substrate which are arranged to face each other via a liquid crystal layer, the first substrate and the second substrate each being formed of a resin base material, includes: an adhesive layer which is formed on the liquid crystal layer side of the first substrate to fix a liquid crystal drive layer formed with pixels in a matrix to the first substrate; and an under layer which is formed between a light shielding film and a colored filter layer both corresponding to each of the pixels and the second substrate and formed of a thin film material having a thermal expansion coefficient smaller than that of the second substrate.03-25-2010
20100045912DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A driving circuit and a common electrode are located within a sealant region of the first substrate, wherein the driving circuit includes switch devices and turn-line structures. The common electrode is located within the sealant region of the first substrate. The planar layer is located on the first substrate, wherein the thickness of the planar layer at the turn-line structure of the driving circuit is less than the thicknesses of other portions. The conductive layer is located on the planar layer. A second substrate having an electrode thereon is disposed opposite to the first substrate. A liquid crystal layer is located within the display region between the first substrate and the second substrate. A sealant is located within the sealant region between the first substrate and the second substrate, and conductive balls are distributed in the sealant.02-25-2010
20100045911LIQUID CRYSTAL DISPLAY APPARATUS - The present invention provides a liquid crystal display apparatus to which fingerprints do not adhere for the purpose of improving transparency. A liquid crystal display apparatus is provided, wherein a nanoscale fingerprint adherence prevention surface layer is formed on the surface of a laminate of an LCD panel, contrast enhancement film, liquid crystal protective glass, and the like, using a method such as vacuum deposition or sputtering, taking one or multiple types selected from SiO2, Ti, Sn and the like as the principle components for the fingerprint adherence prevention surface layer.02-25-2010
20100103356SPINEL SINTERED BODY, PRODUCTION METHOD THEREOF, TRANSPARENT SUBSTRATE, AND LIQUID CRYSTAL PROJECTOR - A spinel sintered body has a composition of MgO·nAl04-29-2010
20100110354TRANSPARENT PRESSURE-SENSITIVE ADHESIVE SHEET AND FLAT PANEL DISPLAY - The present invention provides a transparent adhesive sheet for a flat-panel display, which permits easy re-peeling in early stages, has superior adhesiveness enabling adhesion to a telltale module (telltale panel) and a protective transparent plate with a high adhesive force after adhesion, is superior in adhesion stability particularly at low temperatures, and further has superior punching processability and level difference absorbability.05-06-2010
20090303424LIQUID CRYSTAL DISPLAY AND METHOD FOR MANUFACTURING THE SAME - A liquid crystal display and a manufacturing method thereof. The liquid crystal display includes a first substrate and a second substrate, a thin film transistor formed on the first substrate, a color filter formed on the thin film transistor, an overcoat formed on the color filter and having a contact hole, a pixel electrode formed on the overcoat and connected to the thin film transistor through the contact hole, and a liquid crystal layer formed between the first substrate and the second substrate, wherein the overcoat except at the contact hole has the same planar shape as the pixel electrode. Accordingly, deterioration of the liquid crystal layer may be prevented in the liquid crystal display and a pattern of a pixel electrode may be easily formed.12-10-2009
20110013128DYNAMIC DISPLAY WITH DIVIDED TOP ELECTRODE - The present invention relates generally to dynamically addressable displays, such as electrophoretic and other like bi-stable and/or non-volatile displays to provide an individually addressable series of segments on a multi-element display arrangement.01-20-2011
20090237602LIQUID CRYSTAL DISPLAY DEVICE - A face plate on which a frame is formed for improved design aesthetics is bonded to a top surface of an upper polarizer of a liquid crystal display panel with a pressure-sensitive adhesive material. The frame on the face plate is formed from five layers of printing. The pressure-sensitive adhesive material has a three-layer structure having a first pressure-sensitive adhesive member, a base material, and a second pressure-sensitive adhesive member. The first pressure-sensitive adhesive member is formed thicker than the second pressure-sensitive adhesive member, and hence the pressure-sensitive adhesive material can maintain a necessary thickness above the frame formed on the face plate. The reliability of adhesion between the face plate and the liquid crystal display panel is thus improved.09-24-2009
20120113369OPTICAL ADHESIVE FILM AND FLAT PANEL DISPLAY DEVICE HAVING THE SAME - An optical adhesive film for improving the adhesive strength between constitutional elements of a flat panel display device, and a flat panel display device having the same. According to an aspect of the present invention, there is provided an optical adhesive film for use in a flat panel display module that displays an image, the optical adhesive film including a transmission unit disposed on the flat panel display module and allowing the image to transmit through the transmission unit; a wing member extending from at least one side surface of the transmission unit, and covering side surfaces and a portion of a rear surface of the flat panel display module; and an adhesive member disposed covering all surfaces of the transmission unit and the wing member.05-10-2012
20110043737ACRYLIC ADHESIVE COMPOSITION - The invention relates to an acrylic adhesive composition, more particularly, to an adhesive composition which: specifies the contents of a (meth)acrylic ester-based monomer and an aromatic group-containing monomer of an acrylic copolymer as a composition having little or no difference of birefringence; has excellent durability; and can reduce light leakage due to flexure by mixing a crosslinkable functional group-containing acrylic copolymer (A) and an acrylic copolymer (B) which does not contain the crosslinkable functional group, in a ratio of 1:9 to 5:5.02-24-2011
20090128761LIQUID CRYSTAL DISPLAY DEVICE AND METHOD OF MANUFACTURING SAME - A liquid crystal display device in accordance with one aspect of the present invention includes a liquid crystal panel including a electrode substrate, a opposed substrate disposed opposite to the electrode substrate, and liquid crystal sandwiched between the electrode substrate and the opposed substrate, and a transparent conductive film formed on the opposite surface of the opposed substrate to the liquid crystal, wherein the thickness d05-21-2009
20100171915Liquid Crystal Display Device - An LCD device having a backlight module, a display module and an adhesive layer is provided. The backlight module has an inner fringe for holding the display module. The display module sequentially includes a lower polarizer, a display panel and an upper polarizer. The edge of the upper surface of the display panel is exposed because the area of the upper polarizer is smaller than the area of the display panel. The adhesive layer has a first adhesive film and a second adhesive film. The display module is disposed on the inner fringe of the backlight module by using the adhesive layer wherein the first adhesive film is on the side wall of the backlight module and portion of the edge of the upper surface of the display panel, the second adhesive film is on the portion of the first adhesive film and the exposed edge of upper surface of the display panel.07-08-2010
20100201929DISPLAY DEVICE - Provided is a display device, including: a barrier layer formed of a plurality of material layers being laminated; and a first material layer and a second material layer that sandwich the barrier layer, in which: the first material layer, the plurality of material layers forming the barrier layer, and the second material layer have light refractive indexes that are set so as to sequentially change from the first material layer to the second material layer in one of decreasing order and increasing order; and the plurality of material layers forming the barrier layer include a high stress film and a low stress film which are alternately laminated on each other. Therefore, the display device of the present invention can achieve crack prevention, enhancement in adhesion between the respective layers and enhancement in barrier property, together with reducing a light reflectance of the barrier layer.08-12-2010
20110299017LIQUID CRYSTAL DISPLAY MANUFACTURING METHOD, LIQUID CRYSTAL DISPLAY, AND ELECTRONIC APPARATUS - A method of manufacturing a liquid crystal display includes: forming a protective film on at least either of first and second mother substrates disposed opposite to each other and each having panel regions; removing the protective film in a region which is associated with at least start and end points of a seal material and which is near the periphery of an area including the panel regions, applying the seal material to the protective film on the first and second mother substrates in the vicinity of dividing lines at which the mother substrates are divided into individual panel regions using a dispenser, the seal material being applied from the start to end points to form a gap to serve as a liquid crystal injection port; combining the first and second mother substrates; and dividing the combined first and second mother substrates into the individual panel regions.12-08-2011
20100091227SWITCHABLE TWO DIMENSIONAL / THREE DIMENSIONAL DISPLAY - A switchable two and three dimensional display (2D/3D display) suitable for being viewed by a user is provided. The 2D/3D display includes a liquid crystal display (LCD) panel and a switchable barrier. The LCD panel has a display area, a non-display area surrounding the display area, and a first black matrix extending from the display area to the non-display area. The first black matrix has a number of openings arranged in array and merely distributed within the display area. The switchable barrier has a 3D image control area, a non-display area surrounding the 3D image control area, and a second black matrix merely disposed within the non-display area. The second black matrix surrounds the 3D image control area. An area occupied by the 3D image control area is different from an area occupied by the display area.04-15-2010
20100007829LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - A flexible and highly reliable liquid crystal display device which is not easily damaged even if subjected to external pressure is provided. A method for manufacturing, with high yield, a flexible and highly reliable liquid crystal display device which is not easily damaged even if subjected to external pressure is also provided. A liquid crystal display device including a first structure body including a first fibrous body and a first organic resin, a second structure body including a second fibrous body and a second organic resin, a liquid crystal interposed between the first and second structure bodies, and a seal member for fixing the first and second structure bodies and for enclosing the liquid crystal. The first and second fibrous bodies are impregnated with the first and second organic resins, respectively, and the first structure body and the second structure body are in contact with each other.01-14-2010
20090147195Method and apparatus to reduce dielectric discharge in liquid crystal devices driven with high voltages - The present invention relates to a method and apparatus to reduce dielectric discharge in liquid crystal cells driven with high voltage. In one embodiment, the present invention is a liquid crystal cell including a substrate with a surface and a tapered conductive film on top of the surface of the substrate including a first end and a second end. In another embodiment, the present invention is a method for forming a liquid crystal cell including covering a portion of a surface of a substrate with a shadow mask and then depositing conductive film onto the surface of the substrate such that the conductive film is tapered.06-11-2009
20090147198LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC EQUIPMENT - Disclosed herein is a liquid crystal display device including: a first substrate having a pixel area in which pixels are arranged in a matrix form; a second substrate disposed to be opposed to the first substrate; a liquid crystal layer disposed between the first and second substrates; a conductive section disposed at least on the first of the first and second substrates to apply a voltage to the liquid crystal; an organic film disposed at least over one of the first and second substrates; a sealing area adapted to hold the two substrates of the liquid crystal display device together at the peripheral portions of the first and second substrates; and an organic film-free area which is free from the organic film and extends from the inward side of the outermost end of the sealing area to the outward side of the outer periphery of the pixel area.06-11-2009
20090147196FUNCTIONAL FILM AND DISPLAY APPARATUS - A functional film comprises a substrate film and a functional layer formed on the substrate film. In the film, the functional layer is a cured layer of a coated layer, the coated layer contains a resin binder comprising a plurality of resins capable of phase separating from each other, a curable resin(s), and a hollow silica particle, and the hollow silica particles accumulate and gather near a side opposite to a side adjacent to the substrate film.06-11-2009
20090141225Display device and method of fabricating the same - Provided are a display device for realizing a multi-view image and a method of fabricating the same. The display device includes: a display panel for displaying an image and a barrier pattern disposed on an outer side of the display panel and for adjusting an optical path in at least two viewing angle directions.06-04-2009
20100091228LIQUID CRYSTAL DISPLAY AND METHOD OF FABRICATING THE SAME - A liquid crystal display (“LCD”) and a method of fabricating the same are provided. The LCD includes a first insulating substrate, protrusion patterns spaced apart from each other on the first insulating substrate, pixel electrodes disposed on the protrusion patterns and having a cutout between the protrusion patterns, metal patterns disposed on the protrusion patterns and overlapping top surfaces of the protrusion patterns, a second insulating substrate facing the first insulating substrate, and a liquid crystal layer interposed between the first insulating substrate and the second insulating substrate.04-15-2010
20090185122LIQUID CRYSTAL DISPLAY DEVICE - To provide a liquid crystal display device in which it is possible, with a simple configuration, to avoid a bright spot defect caused by a polishing flaw, called a dimple, formed in a surface of an observer side substrate of a liquid crystal display panel.07-23-2009
20090201450LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - To improve the response speed of liquid crystal molecules when a liquid crystal display device is changed from an on state to an off state. A liquid crystal display device that includes a liquid crystal material between a substrate and a counter substrate; a plurality of pixels over the substrate; and a microstructure which is provided over the substrate, is in contact with the liquid crystal material, and includes a movable portion and a method for manufacturing the liquid crystal display device are provided. The microstructure may include a lower electrode, an upper electrode, and a space between the lower electrode and the upper electrode. The microstructure is manufactured through the steps of forming the lower electrode over the substrate, forming a sacrificial layer over the lower electrode, forming the upper electrode over the sacrificial layer, and removing the sacrificial layer by etching to form the space.08-13-2009
20100118243POLYMERIC CONDUCTIVE DONOR AND TRANSFER METHOD - A donor laminate for transfer of a conductive layer has a transparent substrate and a conductive layer comprising at least one electronically conductive polymer that is present in an amount of at least 40 weight %, a polyanion, and inorganic particles having an average particle size of less than 100 nanometers (nanoparticles). This donor laminate can be used to transfer the conductive layer to a suitable receiver element to prepare various electronic devices.05-13-2010
20100097552RESIN COMPOSITION AND IMAGE DISPLAY APPARATUS - A thin image display apparatus capable of high luminance and high contrast display of a display part, which does not produce display defects resulting from deformation of the image display part. The thin image display apparatus has an image display part and a light-transmitting protective part arranged on the image display part. A cured resin layer is arranged between the image display part and the protective part. The cured resin layer has a transmittance in the visible region of 90% or higher and a storage modulus at 25° C. of 1.0×107 Pa or less. The cured resin layer is formed from a resin composition which has a curing shrinkage ratio of 5.0% or less.04-22-2010
20090262290ALKALI SILICATE GLASS FOR DISPLAYS - A display assembly comprises an electronic display element, a layer of material, and an alkali silicate glass material at least partially covering at least one of the electronic display element and the layer of material.10-22-2009
20090296033Resin Composition and Display Unit - A thin display unit that incorporates a high-luminance, high-contrast display part that is free of image detects caused by the deformation of the display part is provided. The display unit of the present invention includes an image display part 12-03-2009
20110007253Adhesive Structure with Liquid Crystals - The invention refers to an adhesive structure with liquid crystals, the adhesive structure comprising a first and a second wall of a transparent polymer, between which an emulsion of liquid crystals and optionally two electrodes of indium oxide doped with tin as well as an auto-adhesive structure comprising an adhesive sensitive to pressure are located.01-13-2011
20090128760FLAT DISPLAY PANEL HAVING STRENGTH ENHANCING STRUCTURE - A flat display panel includes a first substrate, a second substrate opposite to the first substrate, a sealant disposed between the first and second substrates. The sealant, the edge of the inner surface of the first substrate, and the edge of the inner surface of the second substrate form a space, and the flat display panel further includes a protection layer disposed inside the space so as to reinforce the structural strength of the flat display panel.05-21-2009
20090103030Very Thin Achromatic Quarter Wave Film Laminate for Transflective LCD and Method for Producing the Same - Disclosed herein is an very thin achromatic quarter wave film laminate for transflective LCD included in an LCD polarizer. More specifically, the very thin achromatic quarter wave film laminate for transflective LCD has a considerably reduced thickness, as compared to conventional quarter wave films in which anisotropic polymeric films are laminated.04-23-2009
20090213314Liquid crystal display device and manufacturing method therefor - A liquid crystal display device includes a first substrate and a second substrate which sandwiches a liquid crystal between itself and the first substrate, wherein08-27-2009
20090096971ACTIVE MATRIX TYPE DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing an active matrix type display device, which is reliable and flexible, is provided. An active matrix type display device according to an aspect of the present invention includes: a first substrate, which is flexible; a thin glass layer provided on the first substrate via an adhesion layer, and having projections and depressions on a surface thereof opposing to the first substrate, the projections and depressions having rounded tips and bottoms; active elements provided on the thin glass layer, each active element corresponding to a pixel; a display provided above the thin glass layer, and driven by the active elements to display an image pixel by pixel; and a second substrate provided on the display, and having an opposing electrode formed thereon.04-16-2009
20090244456DISPLAY DEVICE - A display device is provide, which includes a supporting substrate, a flexible display provided with a transparent display substrate formed above the supporting substrate, and a dilatant fluid accommodating member. The dilatant fluid accommodating member is disposed on the outside of the flexible display.10-01-2009
20100014034Display device - To prevent a reduction in load resistance of a liquid crystal panel which is caused along with a reduction in thickness thereof, tempered glass is entirely bonded to both of front and back surfaces or one of the surfaces of the liquid crystal panel using an optical adhesive, and an amount of warp by which the liquid crystal panel alone is broken due to a pressure is set equal to or larger than that in a case of the tempered glass.01-21-2010
20100149473PIXEL ARRAY AND MANUFACTURING METHOD THEREOF - A pixel array includes a substrate, scan lines, data lines, active devices, first pads, second pads, first wires, second wires, an insulating layer, an organic planarization layer, first pad electrodes, second pad electrodes and pixel electrodes. The substrate has a display area and a non-display area. The scan lines and the data lines are disposed in the display area. The active devices are disposed in the display area and electrically connected to the scan lines and the data lines. The first and second pads are disposed in the non-display area. The first and second wires are disposed in the non-display area and respectively connected to the first and second pads. The organic planarization layer covers the insulating layer. The first and second pad electrodes are disposed on the organic planarization layer in the non-display area. The pixel electrodes are disposed on the organic planarization layer in the display area.06-17-2010
20100157218Display device - The present invention is directed to providing a technology for display devices where a transparent cover is pasted on a display panel according to which inconsistencies resulting from expansion of the polarizing plate in the vicinity of an end portion caused by moisture can be prevented, and the adhesive can be prevented from sagging when the display panel and the transparent cover are pasted together. A display device according to the invention is provided with: a liquid crystal display panel having a first substrate, a second substrate provided on the viewer side of the above described first substrate and a liquid crystal layer sandwiched between the above described first substrate and the above described second substrate; and a transparent cover pasted on the surface of the above described liquid crystal display panel on the above described viewer side using an adhesive. The above described liquid crystal display panel has a polarizing plate between the above described second substrate and the above described transparent cover. The above described adhesive covers the entirety of a side of the above described polarizing plate, and the form of the outer periphery of the above described adhesive in a plane is uneven.06-24-2010
20100002176METHOD OF MANUFACTURING LIQUID CRYSTAL DISPLAY DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE - Provided are a method of manufacturing liquid crystal display device possessing transparent conductive layer exhibiting excellent optical transparency, resistance characteristic, evenness, adhesion to substrate, and hardness, and liquid crystal display device thereof. The liquid crystal display device possessing liquid crystal display panel and backlight unit, wherein liquid crystal display panel has a structure in which display electrode and reference electrode are provided on surface of region corresponding to unit pixel on liquid crystal layer side of one transparent substrate or each of both transparent substrates provided facing to each other via liquid crystal layer, and light transmitting liquid crystal layer is modulated by electric field generated parallel to transparent substrate between reference electrode and display electrode, wherein the method of manufacturing liquid crystal display device possesses the step of forming transparent conductive layer in pixel region by atmospheric pressure plasma method employing nitrogen gas as thin film forming gas.01-07-2010
20100165276ANTIREFLECTIVE ARTICLES AND METHODS OF MAKING THE SAME - A composite having (a) a substrate that has opposing first and second surfaces, the substrate being at least 90% transmissive in visible light and has less than 5% haze, (b) a nanostructured article including a matrix and a nanoscale dispersed phase and having a random nanostructured anisotropic surface; and (c) an optically clear adhesive disposed on the second surface of the substrate.07-01-2010
20100182554LIQUID CRYSTAL DISPLAY APPARATUS AND METHOD FOR MANUFACTURING THE SAME - In a liquid crystal display (LCD) apparatus and a method for manufacturing the LCD apparatus, the LCD apparatus includes first and second substrates, and a liquid crystal layer disposed between the first and second substrates. The first substrate includes a transparent insulating substrate, a conductive layer formed over an entire surface of the transparent insulating substrate, and a transparent conductive electrode formed on the conductive layer.07-22-2010
20100259711ANTISTATIC LAMINATED BODY AND POLARIZING PLATE USING THE SAME - An antistatic laminate is provided that simplifies the production of a polarizing plate and, at the same time, can satisfactorily meets requirements of IPS and VA modes. The antistatic laminate is adapted for use in polarizing plates and comprises a light transparent base material and an antistatic layer provided on the light transparent base material. The antistatic layer is located between the polarizing element of the polarizing plate and a light transparent display site while using a polarizing plate.10-14-2010
20100157219DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME AND ELECTRO-OPTICAL DEVICE INCLUDING THE DISPLAY PANEL AND METHOD FOR MANUFACTURING THE SAME - A display panel and a manufacturing method are disclosed. The method is to thin the thickness of a pair of transparent substrates for the display panel by grinding or lapping only, or grinding with simplified polishing, so that at least one of the outer surface of the transparent substrates has Haze substantially less than 90% and a profile arithmetic mean roughness ranged from about 0.02 μm to about 0.66 μm.06-24-2010
20110128485LIQUID CRYSTAL DISPLAY DEVICE - An LCD device is disclosed. The LCD device includes a liquid crystal panel configured to include a bonding portion formed in its one edge, pluralities of gate and data lines arranged on it, and pixel regions defined by the gate and data lines. The bonding portion includes: first metal patterns formed away from each other and on a substrate of the liquid crystal panel; a gate insulation film and a protective layer sequentially formed to cover the first metal patterns; and a second metal pattern formed on the protective layer and electrically connected to the first metal patterns partially exposed by contact holes which are formed by partially etching the gate insulation film and protective layer.06-02-2011
20100253893DISPLAY FILTER FOR LCD HAVING ANTI-FOG LAYER - A display filter for a Liquid Crystal Display (LCD) having an anti-fog function includes a transparent support arranged in front of the display module and an anti-fog layer stacked in the rear of the transparent support to face the display module. The anti-fog layer prevents the display filter from fogging up.10-07-2010
20090040444LIQUID CRYSTAL DEVICE AND ELECTRONIC APPARATUS - An optically compensated birefringence mode liquid crystal device includes each pixel electrode that overlaps a part of an adjacent gate line and/or a part of an adjacent source line in a plan view.02-12-2009
20090322999Display Device and Manufacturing Method for Same - An object of the present invention is to provide a display device where a display panel and a transparent cover which are pasted together can be separated from each other without breaking the liquid crystal display panel and the transparent cover. The present invention provides a display device having: a liquid crystal display panel having a liquid crystal layer sandwiched between a first substrate and a second substrate which is provided on the viewer side relative to the first substrate; a polarizing plate provided on the above described liquid crystal display panel on the above described viewer side; a viscous film pasted on the viewer side relative to the above described polarizing plate; and a transparent cover pasted on the viewer side relative to the above described viscous film, wherein the above described viscous film is made up of a multilayer body of gluing agents.12-31-2009
20130128199METHODS FOR FABRICATING A SEMICONDUCTOR DEVICE - The object of the invention is to provide a method for fabricating a semiconductor device having a peeled layer bonded to a base material with curvature. Particularly, the object is to provide a method for fabricating a display with curvature, more specifically, a light emitting device having an OLED bonded to a base material with curvature. An external force is applied to a support originally having curvature and elasticity, and the support is bonded to a peeled layer formed over a substrate. Then, when the substrate is peeled, the support returns into the original shape by the restoring force, and the peeled layer as well is curved along the shape of the support. Finally, a transfer object originally having curvature is bonded to the peeled layer, and then a device with a desired curvature is completed.05-23-2013
20100053523TRANSPARENT CONDUCTIVE FILM, AND SUBSTRATE, ELECTRONIC DEVICE AND LIQUID CRYSTAL DISPLAY USING THE SAME - A transparent conductive film including an indium oxide, a tin oxide and at least one lanthanoid metal oxide, the film including a portion connected to a conductor, and at least the connection portion having crystallinity.03-04-2010
20100014035PRINTED CIRCUIT BOARD AND METHOD FOR MANUFACTURING THE SAME - A printed circuit board for mounting electronic parts thereon includes a ground portion formed on the printed circuit board and connected to an outer ground. A plurality of conductive ground layers are stacked so as to interpose an insulation layer therebetween. An upper conductive ground layer includes first and second conductive ground portions. The first and second ground portions are connected by a connecting element. Another conductive ground layer under the upper conductive ground layer is grounded via the first and second ground portions of the upper conductive ground layer via a through hole provided in the ground portion.01-21-2010
20090322998Liquid crystal display device having minimized display area - A liquid crystal display (LCD) device having a minimized display area. The LCD device comprises a display region defined by a plurality of gate and data lines, and having a plurality of thin film transistors (TFTs), for displaying an image; a frame region disposed outside the display region, and composed of a first region having a reflection layer for displaying a color having a set brightness by reflecting incident light in a reflective mode, and a second region having a driving circuit pattern and a driving circuit for shielding incident light; and an outer region formed outside the frame region and having the driving circuit.12-31-2009
20090033852Liquid Crystal Display Device - A liquid crystal display device includes: a first substrate; a second substrate which is placed nearer to a viewer than the first substrate, and which faces a viewer side of the first substrate; a liquid crystal sandwiched between the first substrate and the second substrate; an upper polarization plate which is placed nearer to the viewer than the second substrate, and which faces a viewer side of the second substrate; and a transparent resin plate which is placed nearer to the viewer than the upper polarization plate, and which is attached to a viewer side of the upper polarization plate with one of an adhesive material and a bonding material, the transparent resin plate includes a transparent oxide film on a face that faces the upper polarization plate, and the transparent resin plate is in close contact with the adhesive material or the bonding material through the transparent oxide film.02-05-2009
20100053524Display device - A display device includes: a back light unit for emitting a light; a lower polarization plate on the back light unit; a liquid crystal display panel on the lower polarization plate for displaying an image; an upper polarization plate on the liquid crystal display panel; an optical film bonded to the upper polarization plate; and a transparent material on the optical film for improving hardness of the optical film.03-04-2010
20110069265ELECTROSTATIC DISCHARGE PROTECTION ELEMENT, LIQUID CRYSTAL DISPLAY DEVICE HAVING THE SAME, AND MANUFACTURING METHOD THEREOF - An electrostatic discharge protection element, a liquid crystal display device having the same, and a manufacturing method. A first ESD organic TFT, a second ESD organic TFT, a third ESD organic TFT each have a gate electrode, a source electrode and a drain electrode in which the source electrode and drain electrode of the first and second ESD organic TFTs and the gate electrode of the third ESD organic TFT are electrically connected. The gate electrode and the source electrode of the first ESD organic TFT are electrically connected to a first array line and the gate electrode and the drain electrode of the second ESD organic TFT are electrically connected to a second array line. The source electrode of the third ESD organic TFT is electrically connected to a data line or a gate line and the drain of the third ESD organic TFT are electrically connected to a common voltage line.03-24-2011
20110069264LIQUID CRYSTAL IMAGER AND METHOD OF MAKING SAME - The disclosed LCOS device comprises a transparent composite plate, a planar liquid crystal cell, a base plate which contains an active matrix driving circuitry. In the basic embodiment, the planar liquid crystal cell comprises a conductive seal ring which encloses liquid crystal filling and connects the transparent conductive layer underneath the transparent composite plate with the base plate and the active matrix driving circuitry. In the extended embodiment, the base plate further incorporates a set of thru-substrate via and backside bond pads. The set of thru-substrate via electrically connect a set of input-output pads of the active matrix driving circuitry to the bottom bond pads underneath the base plate. In addition, the conductive seal ring electrically connects the transparent conductive film placed underneath the transparent front plane plate, preferably made of glass, to the active matrix driving circuitry on the base plate. Electrostatically charged between the transparent conductive coating and an electrode array layer including a planar array of reflective pixel electrodes on top of the base plate, planar liquid crystal cell is operated to produce spatial light modulation to incident illumination. The method of wafer level process and packaging of the disclosed LCOS imagers is further disclosed.03-24-2011
20110069263Liquid crystal display apparatus - Provided is a liquid crystal display apparatus including: a pair of substrates (SUB1 and SUB2); a medium (LC) which is sandwiched between the pair of substrates, is optically isotropic when no voltage is applied thereto, and exhibits optical anisotropy when a voltage is applied thereto; a pixel electrode (PX) and a common electrode (CT) which are formed on one of the pair of substrates , at least one of the pixel electrode and the common electrode being formed into a comb tooth shape; and a horizontal orientation film (AL) which is subjected to orientation treatment so as to orient the medium in a direction horizontal to the pair of substrates , and is formed on an interface of at least one of the pair of substrates with the medium, in which the medium has a selective reflection peak derived from a (110) plane at 400 nm or less.03-24-2011
20100097553LIQUID CRYSTAL DISPLAY PANEL, LIQUID CRYSTAL DISPLAY DEVICE, AND TELEVISION RECEIVER - The present invention provides a liquid crystal display panel, a liquid crystal display device, and a television receiver, each of which permits shortening of production time, simplification of inventory management of the CF substrate, and reduction in production costs. The present invention is a liquid crystal display panel including: 04-22-2010
20100097554LIQUID CRYSTAL DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A liquid crystal display panel includes: a first glass substrate and a second glass substrate opposed to each other with a space therebetween; polarizing plates provided respectively on an outer surface of the first glass substrate and an outer surface of the second glass substrate except for a peripheral portion of the first glass substrate and a peripheral portion of the second glass substrate, the outer surface of the first glass substrate and the outer surface of the second glass substrate facing sides opposite to each other; and a water-resistant barrier film formed at the peripheral portion on the outer surface of at least one of the first glass substrate and the second glass substrate.04-22-2010
20090147197DISPLAY DEVICE AND ELECTRONIC APPARATUS - A display device is provided which includes a base body having a pixel area in which pixels are disposed in a matrix, an organic planarizing film composed of an organic film and provided on the base body, a dry-etched film provided on the organic planarizing film and formed by dry etching, a conductive film provided on the dry-etched film, and an organic film-removed area in which the organic planarizing film is removed outside the periphery of the pixel area. In the above display device, the dry-etched film or a film provided before the dry-etched film is formed is terminated in the organic film-removed area.06-11-2009
20080266501ADHESIVE STACKING FOR MULTIPLE OPTICAL FILMS - In a new packaging method for light management films in displays, such as liquid crystal displays, a stack of two or more optical films is held together before insertion into the display frame. The stack includes at least two of the films that are adhered together using adhesive positioned outside the viewing area of the films. In some embodiments, the adhesive is provided at one or more tabs provided around the periphery of the film stack.10-30-2008
20100321621DISPLAY DEVICE - The present invention provides a thin-profile and light-weight display device capable of improving display qualities and suppressing incorrect operation.12-23-2010
20080252834Thin film transistor, method for fabricating same and liquid crystal display using same - A thin film transistor includes a substrate, a gate electrode formed on the substrate, a gate insulating layer covering the gate electrode and the substrate, an a-Si layer and a heavily doped a-Si layer on the gate insulating layer, a conductive film formed on the heavily doped a-Si layer, part of the a-Si layer, and the gate insulating layer, and a source electrode and a drain electrode on the conductive film. A work function of the conductive film is greater than a work function of the a-Si layer.10-16-2008
20110134379LIQUID CRYSTAL DISPLAY DEVICE AND ELECTRONIC APPARATUS - The present invention provides a liquid crystal display device including a liquid crystal layer disposed between a first substrate and a second substrate, a pixel electrode in a reflection region and a transmission region over the first substrate, a film for adjusting a cell gap in the reflection region over the first substrate, and an opposite electrode in the reflection region and the transmission region over the second substrate. The pixel electrode in the reflection region is provided over the film and reflects light. The pixel electrode in the transmission region transmits light. The pixel electrode in the reflection region and the transmission region includes a slit. The slit is overlapped with at least a part of a step portion which is provided by the film between the reflection region and the transmission region.06-09-2011
20120147307TFT AND LCD PANEL AND METHOD FOR MANUFACTURING THE SAME - The present invention discloses a thin-film transistor (TFT), a liquid crystal display (LCD) panel and method for manufacturing the same. In the LCD panel, a transparent conducting layer forms a first electrode of a TFT and a second electrode of a TFT directly, and the transparent conducting layer also serves as a connecting line between a TFT and a data line and between a TFT and an LC capacitor. So it is not necessary to form a via hole over the TFT to link the TFT and the transparent conducting layer. In this way, an area of a pixel electrode can be further extended, and the aperture rate of an LCD panel can be also increased, raising a transmittance of light from light sources passing through the pixel electrode In this way, not only a design in pixels becomes more flexible but also the aperture rate of an LCD panel becomes higher.06-14-2012
20110096276ELECTRO-OPTICAL DEVICE - An electro-optical device includes a body of fluid, a lower conductor layer disposed below the body of fluid, and a dielectric layer disposed between the body of fluid and the lower conductor layer, connected to the lower conductor layer and supporting the body of fluid. The dielectric layer includes a matrix and a liquid crystal material disposed in the matrix and including liquid crystal molecules. The dielectric layer has a segment disposed adjacent to the fluid. When the segment of the dielectric layer is exposed to an electric field, the body of fluid undergoes electrowetting or dielectrophoresis mechanism, and the orientation of the liquid crystal molecules that are disposed in the segment of the dielectric layer is changed.04-28-2011
20120206680ELECTRO-OPTICAL DEVICE AND ELECTRONIC EQUIPMENT - An electro-optical device includes: a first substrate; a second substrate having one surface opposite to the first substrate; a support member configured to hold the first and second substrates with the second substrate located outside the first substrate, and to include a frame portion surrounding the first and second substrates; a first conductive film formed on the other surface of the second substrate; and a conductor layer placed between the frame portion and the first and second substrates, and electrically connected to the first conductive film. The first conductive film is held at a constant potential via the conductor layer.08-16-2012
20080218673DISPLAY APPARATUS AND METHOD FOR MANUFACTURING SUBSTRATE FOR DISPLAY APPARATUS - A display apparatus includes a substrate including a display area of an approximate rectangle, and at least one film pattern which is formed over the substrate and extends to outside of the display area. A perimeter of the at least one film pattern has a shape of a smooth curved line at vicinity of at least one of corner portions of the display area.09-11-2008
20110199564DISPLAY DEVICE SUBSTRATE, DISPLAY DEVICE SUBSTRATE MANUFACTURING METHOD, DISPLAY DEVICE, LIQUID CRYSTAL DISPLAY DEVICE, LIQUID CRYSTAL DISPLAY DEVICE MANUFACTURING METHOD AND ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - The present invention provides a display device substrate, a display device substrate manufacturing method, a display device, a liquid crystal display device, a liquid crystal display device manufacturing method and an organic electroluminescent display device that allow suppressing faults derived from occurrence of gas and/or bubbles in a pixel region. The present invention is a display device substrate that comprises: a photosensitive resin film; and a pixel electrode, in this order, from a side of an insulating substrate. The display device substrate has a gas-barrier insulating film, at a layer higher than the photosensitive resin film, for preventing advance of a gas generated from the photosensitive resin film, or has a gas-barrier insulating film, between the photosensitive resin film and the pixel electrode, for preventing advance of gas generated from the photosensitive resin film.08-18-2011
20100195033SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - (OBJECT) The object is to provide a lightened semiconductor device and a manufacturing method thereof by pasting a layer to be peeled to various base materials.08-05-2010
20100026947LIQUID CRYSTAL PANEL - The present invention is directed to the provision of a liquid crystal panel that can solve the problem that bubbles are formed in a liquid crystal layer. More specifically, the invention provides a liquid crystal panel includes a first plastic substrate; a second plastic substrate, a liquid crystal layer sealed between the first and second plastic substrates, a transparent conductive layer provided on the first or the second plastic substrate and having a patterned region for driving the liquid crystal layer, and an opening provided in the patterned region of the transparent conductive layer.02-04-2010
20110051063DISPLAY APPARATUS AND MANUFACTURING METHOD THEREOF - A manufacturing method of the present invention is a manufacturing method of a display device with a functional film that is adhered to a principal plane of a display panel provided with a display part. A first resin layer is formed outside the display part on the principal plane to surround the display part, a communication part which allows an inner area surrounded by the first resin layer and an outer area outside of the first resin layer to communicate with each other in an in-plane direction of the principal plane is formed, the inner area is coated with a second resin, the functional film is superimposed on the principal plane, and the second resin is pressed and spread throughout the inner area and the communication part by pressing the functional film.03-03-2011
20090021678Flexible Display Apparatus and Method for Producing the Same - Disclosed are a flexible display apparatus and a method for producing the same. The flexible display apparatus includes a flexible substrate; a planarization layer which has an area smaller than an area of the flexible substrate and is formed on the flexible substrate; a display device which is formed on the planarization layer; and a protective layer which is provided on the flexible substrate to cover both the planarization layer and the display device.01-22-2009
20120038871STEREOSCOPIC DISPLAY DEVICE AND LIQUID CRYSTAL BARRIER DEVICE - A display device includes: a display section; and a liquid crystal barrier section including a plurality of opening-and-closing sections each configured of a liquid crystal element to extend along a predetermined direction in a light barrier surface. An orientation, in the light barrier plane, of liquid crystal molecules under no voltage application in the liquid crystal element is different from an extending direction of each of the opening-and-closing sections02-16-2012
20100157216IMAGE DISPLAY DEVICE - An image display device provided with a panel comprising a substrate comprising glass or resin, a front side laminated body and a back side laminated body, and an optical member adjacent to the back side laminated body, wherein the surface of the optical member going to contact with the back side laminated body has an arithmetic average roughness (Ra) of 6 μm or more. The image display device can maintain excellent display performance under conditions with significant circumstance variations.06-24-2010
20100033661IMAGE DISPLAY DEVICE - A thin image display device is provided which is free from display defects caused by the deformation of an image display part and can display high brightness and high contrast images. The image display device includes an image display part 02-11-2010
20120008076Liquid Crystal Display - An active matrix type liquid crystal display device includes first and second substrates, a liquid crystal layer disposed between the first and second substrates, a plurality of pixel regions formed by image signal lines and scan signal lines, and a semiconductor layer, a pixel electrode, a counter electrode formed on the first substrate in a pixel region. The pixel electrode is arranged at level which is lower than a level of the semiconductor layer.01-12-2012
20120013832LIQUID CRYSTAL DISPLAY DEVICE - Disclosed is an LCD device which facilitates to realize a high aesthetic sense by obtaining a colorful and entirely-unified color screen under the circumstance that an image is not displayed in a turning-off state, wherein the LCD device comprises: a liquid crystal module which comprises a liquid crystal panel for displaying an image; a set cover which supports the liquid crystal module; and a color realization film which selectively transmits light with a predetermined wavelength when the liquid crystal module is turned-off, wherein the color realization film comprises a cholesteric liquid crystal layer (CLC), a quarter wave plate (QWP), and a first adhesive layer formed between the cholesteric liquid crystal layer (CLC) and the quarter wave plate (QWP).01-19-2012
20120057113Liquid Crystal Display - An active matrix type liquid crystal display device includes first and second substrates, a liquid crystal layer disposed between the first and second substrates, a plurality of pixel regions formed by image signal lines and scan signal lines, a semiconductor layer, a pixel electrode, a counter electrode formed on the first substrate in a pixel region, and a metal layer and a transparent conductive layer. The metal layer is completely covered by the transparent conductive layer when viewed in cross-section.03-08-2012
20120013833LIQUID CRYSTAL DISPLAY PANEL - A liquid crystal display panel including a first substrate, a second substrate, an active device array, a solar cell structure, an isolating layer, a cholesteric liquid crystal layer, and a common electrode layer is provided. The second substrate faces opposite to the first substrate. The active device array is disposed on the first substrate and between the first substrate and the second substrate. The solar cell structure is disposed on the second substrate and between the second substrate and the active device array. The isolating layer is disposed between the solar cell structure and the active device array. The cholesteric liquid crystal layer is disposed between the isolating layer and the active device array. The common electrode layer is disposed between the cholesteric liquid crystal layer and the isolating layer. Two opposite sides of the isolating layer directly contact with the common electrode layer and the solar cell structure, respectively.01-19-2012
20120062825Liquid Crystal Display Device - A liquid crystal display (LCD) device capable of reducing damage due to drops and external impacts comprises a backlight unit (BLU), an LCD panel disposed opposite the BLU, and an adhesive member interposed between the BLU and the LCD panel. The adhesive member includes a first film bonded to the BLU, a second film bonded to the LCD panel, and a third film interposed between the first film and the second film. The third film includes a first portion bonded to the first film, a second portion bonded to the second film, and a third portion configured so as to connect the first portion and the second portion between the first and second portions.03-15-2012
20100039594METHOD OF MAKING SMART CARDS, SMART CARDS MADE ACCORDING TO THE METHOD, AND AN LCD PARTICULARLY FOR USE IN SUCH SMART CARDS - A method of making a thin flexible smart card having a printed circuit board (PCB) including a liquid crystal display (LCD) thereon, the PCB and LCD being embedded within a laminate of plastic layers, comprising producing an initial laminate by subjecting a plurality of plastic layers to a relatively high temperature and pressure for a relatively long period of time, producing a cavity in one face of the initial laminate, but terminating short of the opposite face, the cavity being configured and dimensioned to accommodate said PCB and LCD thereon, introducing the PCB and LCD into the cavity from one face of the initial laminate with the LCD facing said opposite face thereof, applying one or more further plastic layers over the one face of the initial laminate to cover the PCB in the cavity, and subjecting the initial laminate and the plastic layers to a low temperature, applied to the side of the further plastic layers at a lower pressure and for a shorter period of time than used in producing the initial laminate, to produce the laminate of plastic layers with the PCB and LCD embedded therein.02-18-2010
20110102719HORIZONTAL-ELECTRIC-FIELD LIQUID CRYSTAL DISPLAY APPARATUS - A horizontal-electric-field liquid crystal display apparatus is provided. A pair of substrates are bonded together through a sealing material. A liquid crystal is contained between the pair of substrates. A first electrode and a second electrode are formed on one of the pair of substrates. An electric field generated between the first electrode and the second electrode drives the liquid crystal. A first conductive film composed of a transparent conductive material is formed on a surface of another of the pair of substrates, the surface being opposite a surface in contact with the liquid crystal. The first conductive film is connected to a ground potential through a connection member composed of a conductive material. A second conductive film composed of a transparent conductive material is formed on a surface of the first conductive film. Also, a polarizing plate is formed on a surface of the second conductive film.05-05-2011
20120162587LIQUID CRYSTAL DISPLAY DEVICE WITH GROUNDED BY THERMOCOMPRESSION BONDING TAPE and double-side adhesive tape - A liquid crystal display device which can be manufactured at a low cost is provided. The liquid crystal display device includes a TFT substrate, a CF substrate of a size smaller than a size of the TFT substrate, and a liquid crystal layer sandwiched between the TFT substrate and the CF substrate. A ground pad is formed on a portion of the TFT substrate where the CF substrate does not overlap with the TFT substrate. A transparent conductive film is formed on an upper surface of the CF substrate. The transparent conductive film of the CF substrate and the ground pad formed on the TFT substrate are electrically connected with each other via a thermocompression bonding conductive tape. A double-sided adhesive tape is arranged between the thermocompression bonding conductive tape and an upper surface of the CF substrate and between the thermocompression bonding conductive tape and the TFT substrate.06-28-2012
20120162586APPARATUS AND METHOD FOR MANUFACTURING ENCAPSULATED LIQUID CRYSTALS AND LIQUID CRYSTAL DISPLAY INCLUDING THE ENCAPSULATED LIQUID CRYSTALS - An apparatus for manufacturing encapsulated liquid crystals including at least one first flow duct configured to have liquid crystals flow therethrough, at least one second flow duct configured to have encapsulation film materials flow therethrough, a third flow duct configured to have an inflow portion connected to an outflow portion of the first flow duct and an outflow portion of the second flow duct and to have liquid crystal droplets in which the liquid crystals and the encapsulation film materials are mixed flow therethrough, and a curing machine configured to manufacture the encapsulated liquid crystals by curing the liquid crystal droplets.06-28-2012
20090021679Display Device with Shielding Adhesive Layer and a Method for Manufacturing Thereof - A display device and a manufacture method thereof are provided. The display device includes a base, a display panel, and a shielding adhesive layer. The display panel is disposed on the base. The display panel includes an active area and a border area encolosing the active area, wherein the border area has a corner portion. The shielding adhesive layer is disposed between the base and the display panel and distributed on the border area. The shielding adhesive layer does not extend to the corner portion and therefore directly exposes the corner portion to the base.01-22-2009
20120229742LAMINATED STRUCTURE, DISPLAY DEVICE, AND DISPLAY UNIT EMPLOYING SAME - A laminated structure which can reduce defect by preventing deposition failure or holes of an insulating film, manufacturing method, and a display unit that employ same are provided. The laminated structure as an anode for organic light-emitting devices is provided on a flat surface of a substrate. In the laminated structure, an adhesive layer made of ITO, a reflective layer made of silver or an alloy containing silver, and a barrier layer made of ITO are layered in this order from the substrate side. A cross sectional shape of the laminated structure in the laminated direction is a forward tapered shape. A sidewall face of the adhesive layer, the reflective layer, and the barrier layer is totally covered by an insulating film, and deposition failure or holes of the insulating film is prevented. A taper angle made by the sidewall face and the flat surface is preferably from about 10° to about 70°. The laminated structure can be used as a reflective electrode, a reflective film, or a wiring for a liquid crystal display.09-13-2012
20100231837PROTECTIVE PLATE INTEGRATED DISPLAY APPARATUS - A protective plate integrated display apparatus includes a display panel, a protective plate to protect the observation side surface of the panel, a resin layer charged into a gap between the panel and plate to join them, and a plate-like support member having an opening corresponding to a screen area of the panel. The panel is disposed on one surface side of the support member so that the screen area faces the opening and a peripheral portion of the observation side surface is continuously fixed to the support member over the whole periphery through a frame-like adhesive layer continuously surrounding the whole periphery of the opening. The plate is arranged on the other surface side of the support member with its peripheral portion being fixed to the support member. The resin layer is charged into the opening of the support member and a region surrounded by the adhesive layer.09-16-2010
20120287388SURFACE PROTECTION PANEL AND LIQUID CRYSTAL IMAGE DISPLAY DEVICE - A novel surface protection panel is provided, with no rainbow colors appearing within the display screen or shading occurring, even when the display screen is viewed through sunglasses equipped with polarization lenses. Proposed is a surface protection panel disposed on the outer side of a liquid crystal display panel, that is to say, on the visible side of the liquid crystal display panel in a liquid crystal image display device equipped with a liquid crystal display panel. The surface protection panel has a constitution which a gas barrier transparent resin film having a gas barrier layer is layered on one side or on each side of a transparent synthetic resin plate, and the surface protection panel has a property which both the transparent synthetic resin plate and the gas barrier transparent resin film are non-stretched substantially, non-oriented or uniaxially oriented.11-15-2012
20080225214Liquid Crystal Display Apparatus and Fabrication Method for Liquid Crystal Display Apparatus - A difference in brightness between a portion, at which fiber overlaps, and any other portion of a plastic substrate in which a fiber cloth is contained is eliminated by setting the axis of the fiber and the optical axis of a polarizing plate so as to be coaxial with each other. Thereby, a normal displaying can be effected. In a liquid crystal display apparatus wherein a liquid crystal driving electrode (not shown) is formed on at least one of an active substrate 09-18-2008
20130188118AUTOSTEREOSCOPIC DISPLAY DEVICE - The present invention provides an autostereoscopic display device including: a display device; and a liquid crystal lens cell arranged on the display device, the liquid crystal lens cell including: a first substrate; a second substrate; a liquid crystal layer sandwiched between the first substrate and the second substrate; a first electrode arranged on the first substrate on the side of the liquid crystal layer; and a second electrode arranged on the second substrate on the side of the liquid crystal layer, in which the liquid crystal lens cell has a water-absorption layer arranged on at least one of the first substrate and the second substrate on the side of the liquid crystal layer.07-25-2013
20120081646LIQUID CRYSTAL DISPLAY DEVICE - To provide a liquid crystal display device excellent in mechanical reliability, in which gap holding materials are arranged uniformly in a limited pixel, in an active matrix liquid crystal display device including a columnar gap holding material and liquid crystal between two substrates which face each other, at least one of wirings in a thin film transistor includes a non-expanded portion which is connected to any of electrodes of the thin film transistor and a expanded portion having a first region having the same wiring width as the non-expanded portion and a second region in contact with the first region. Further, one side of the columnar gap holding material is in contact with components on the second substrate, and the other side of the columnar gap holding material is in contact with components provided over the first substrate. Furthermore, the columnar gap holding material overlaps with the expanded portion.04-05-2012

Patent applications in class Particular nonoptical film or layer (e.g., adhesive layer, barrier layer)

Patent applications in all subclasses Particular nonoptical film or layer (e.g., adhesive layer, barrier layer)