20th week of 2016 patent applcation highlights part 62 |
Patent application number | Title | Published |
20160141474 | LIGHT EMITTING DEVICE - A light emitting device includes a substrate, an electrode connection layer, an epitaxial structure and a plurality of pads. The substrate has an upper surface, a lower surface and a plurality of conductive through holes. The electrode connection layer is disposed on the upper surface of the substrate and has at least one first electrode, at least one second electrode and a connection layer which has at least one buffer region. The epitaxial structure is disposed on the electrode connection layer and electrically connected to the electrode connection layer. The pads are disposed on the lower surface of the substrate and connect with the conductive through holes. | 2016-05-19 |
20160141475 | COMPOSITE SUBSTRATE, LIGHT EMITTING DEVICE, AND METHOD OF MANUFACTURING THE LIGHT EMITTING DEVICE - A composite substrate includes a plate-like lead frame having a plurality of supporting leads and a plurality of element containers supported by the supporting leads. The plurality of element containers each has a first electrode lead, a second electrode lead, and a resin molded body integrated with the first electrode lead and the second electrode lead, and within the resin molded body, the first electrode lead, the second electrode lead, and the supporting lead are held spaced apart from one another. At least one of the plurality of element containers has a wire that connects the first electrode lead and the supporting lead and is covered with the resin molded body. | 2016-05-19 |
20160141476 | PACKAGE STRUCTURE AND METHOD OF MANUFACTURE THEREOF, AND CARRIER - The present disclosure provides a method of manufacturing a package structure. The method includes: providing a plurality of conductive portions and a light emitting element; encapsulating the light emitting element and the conductive portions by an encapsulant with a lateral surface of the light emitting element electrically insulated from the conductive portions; electrically connecting the light emitting element to the conductive portions by a conductive element. Accordingly, several methods can be selected to form the conductive element with no conventional limitations. The present disclosure further provides a package structure and a carrier. | 2016-05-19 |
20160141477 | LED MODULE - An LED module A | 2016-05-19 |
20160141478 | LAMINATED THERMOELECTRIC CONVERSION ELEMENT AND MANUFACTURING METHOD THEREFOR - A laminated thermoelectric conversion element is configured to generate electricity from a difference in temperature with respect to a heat-transfer direction. The thermoelectric conversion element includes opposed first and second surfaces which extend in the heat-transfer direction. Respective external electrodes are provided on the first and second surfaces for outputting electricity generated from the temperature difference. At least one of the first and second surfaces is provided with a mark which makes it possible to visually determine the location of the high-temperature side and the low-temperature side with respect to the heat-transfer direction as well as the polarity of the electricity generated. | 2016-05-19 |
20160141479 | THERMOELECTRIC POWER MODULE - A thermoelectric power module capable of suppressing increase of heat-leakage between a heat exchanger at a higher temperature part and another heat exchanger at a lower temperature part while effectively preventing oxidation of a thermoelectric element, an electrode, and a joint layer for joining the thermoelectric element to the electrode, and preventing a short circuit due to extraneous materials, dew condensation, and so on. The thermoelectric power module includes: a thermoelectric element employing a bismuss-tellurium (Bi—Te) based thermoelectric material; at least one barrier layer disposed on the thermoelectric element; an electrode; an electrode protection layer disposed at least on one principal surface of the electrode; a solder layer having a side surface formed with a recess, the solder layer joining a first region of the electrode protection layer to the at least one barrier layer; and a coating film disposed on a side surface of the thermoelectric element, a side surface of the at least one barrier layer, and the side surface of the solder layer, the coating film covering a second region adjacent to the first region of the electrode protection layer and being filled into the recess of the solder layer. | 2016-05-19 |
20160141480 | A HIGH FIGURE OF MERIT P-TYPE FeNbTiSb THERMOELECTRIC MATERIAL AND THE PREPARATION METHOD THEREOF - The present invention discloses a type of high figure of merit p-type FeNbTiSb thermoelectric material, whose composition is FeNb | 2016-05-19 |
20160141481 | THERMOELECTRIC MATERIALS BASED ON TETRAHEDRITE STRUCTURE FOR THERMOELECTRIC DEVICES - Thermoelectric materials based on tetrahedrite structures for thermoelectric devices and methods for producing thermoelectric materials and devices are disclosed. The thermoelectric device has a pair of conductors and a p-type thermoelectric material disposed between the conductors. The thermoelectric material is at least partially formed of a hot pressed high energy milled tetrahedrite formed of tetrahedrite ore and pure elements to form a tetrahedrite powder of Cu12-xMxSb4S13 disposed between the conductors, where M is at least one of Zn and Fe. | 2016-05-19 |
20160141482 | Manufacturing Process of the Thermoelectric Conversion Element - A manufacturing process of a thermoelectric conversion element is provided, which is characterized of applying the semiconductor technology to construct the thermoelectric conversion element with a nano/micro gap to reduce the heat conduction coefficient of the thermoelectric conversion element, so as to significantly enhance the thermoelectric conversion efficiency of the thermoelectric conversion element. In addition, by adding a nano additive in the nano/micro gap of the thermoelectric conversion element, the conductivity of the thermoelectric conversion element can be increased and the efficiency of the heat power conversion can further be promoted. | 2016-05-19 |
20160141483 | HIGHLY CONDUCTING MATERIAL - The present invention concerns electrically conductive nanocomposites. More specifically the electrical conductance of graphitic material can be improved significantly by a molecular coating that has well defined repeating structure. Even superconductivity of these materials may be possible at technologically meaningful temperatures. | 2016-05-19 |
20160141484 | MULTI-LAYER COMPONENT HAVING AN EXTERNAL CONTACT - A multi-layer component ( | 2016-05-19 |
20160141485 | PIEZOELECTRIC ACTUATOR AND CAPSULE ENDOSCOPE INCLUDING THE SAME - A capsule endoscope includes a power supply operably coupled to a piezoelectric element. The power supply is configured to provide an alternating electric signal to the piezoelectric element. A housing defines a cavity therein to receive the piezoelectric element and the power supply. The piezoelectric element is configured to frictionally couple with an inner circumferential surface of the housing to impart movement. | 2016-05-19 |
20160141486 | PIEZOELECTRIC COMPOSITION AND PIEZOELECTRIC DEVICE - Provided is a piezoelectric composition containing a major component that is a perovskite-type oxide which is represented by the general formula ABO | 2016-05-19 |
20160141487 | MANUFACTURING METHOD FOR HIGH-TEMPERATURE PIEZOELECTRIC ELEMENT ELECTRODE AND PIEZOELECTRIC ELEMENT STRUCTURE - A manufacturing method for an electrode of a high-temperature piezoelectric element, comprises: coating traditional conductive slurry on surfaces of a molded piezoelectric material ( | 2016-05-19 |
20160141488 | METHOD FOR ELECTRICALLY CONTACTING A PIEZOELECTRIC CERAMIC - A method for electrically contacting a piezoelectric ceramic includes: providing the piezoelectric ceramic having electrodes for electrically contacting the piezoelectric ceramic and having a flexible, electrically conductive film; producing a composite by applying the flexible, electrically conductive film at least partially to an electrode of the piezoelectric ceramic; forming a durable, electrically conductive connection between the flexible, electrically conductive film and the electrode of the piezoelectric ceramic. Also a sound transducer, as well as a sound transducer array produced using the method for electrically contacting a piezoelectric ceramic. | 2016-05-19 |
20160141489 | TOPOLOGICAL METHOD TO BUILD SELF-ALIGNED MTJ WITHOUT A MASK - A method of forming a self-aligned MTJ without using a photolithography mask and the resulting device are provided. Embodiments include forming a first electrode over a metal layer, the metal layer recessed in a low-k dielectric layer; forming a MTJ layer over the first electrode; forming a second electrode over the MTJ layer; removing portions of the second electrode, the MTJ layer, and the first electrode down to the low-k dielectric layer; forming a silicon nitride-based layer over the second electrode and the low-k dielectric layer; and planarizing the silicon nitride-based layer down to the second electrode. | 2016-05-19 |
20160141490 | MAGNETIC MEMORY DEVICES AND METHODS OF FORMING THE SAME - Provided are a magnetic memory device and a method of forming the same. The magnetic memory device includes a contact plug, which includes a first crystalline region and an amorphous region located on the first crystalline region, and a magnetic tunnel junction pattern located on the amorphous region of the contact plug. | 2016-05-19 |
20160141491 | STORAGE ELEMENT AND MEMORY - A storage element including a storage layer configured to hold information by use of a magnetization state of a magnetic material, with a pinned magnetization layer being provided on one side of the storage layer, with a tunnel insulation layer, and with the direction of magnetization of the storage layer being changed through injection of spin polarized electrons by passing a current in the lamination direction, so as to record information in the storage layer, wherein a spin barrier layer configured to restrain diffusion of the spin polarized electrons is provided on the side, opposite to the pinned magnetization layer, of the storage layer; and the spin barrier layer includes at least one material selected from the group composing of oxides, nitrides, and fluorides. | 2016-05-19 |
20160141492 | MEMRISTOR AND METHODS FOR MAKING THE SAME - An example of the memristor includes a bottom electrode, a switchable material positioned on the bottom electrode, and a cured negative or positive resist that forms an interlayer dielectric positioned on the switchable material. An open area is formed in the interlayer dielectric. The open area exposes a surface of the switchable material. A top electrode is positioned in contact with the exposed surface of the switchable material at the open area. | 2016-05-19 |
20160141493 | NONVOLATILE MEMORY DEVICE - According to one embodiment, a nonvolatile memory device includes a first metal layer, a second metal layer, a first layer, a second layer, and a third layer. The first metal layer contains at least one first metal selected from the group consisting of Al, Ni, Ti, Co, Mg, Cr, Mn, Zn, and In. The second metal layer contains at least one second metal selected from the group consisting of Ag, Cu, Fe, Sn, Pb, and Bi. The first layer is provided between the first metal layer and the second metal layer, and contains a first oxide. The second layer is provided between the first layer and the second metal layer, and contains a second oxide. The third layer is provided between the first layer and the second layer, and contains one of a silicon oxide, a silicon nitride, and a silicon oxynitride. | 2016-05-19 |
20160141494 | RESISTIVE MEMORY DEVICE HAVING FIELD ENHANCED FEATURES - A resistive memory device includes a bottom electrode and a top electrode sandwiching a switching layer. The device also includes a field enhancement (FE) feature that extends from the bottom electrode either into the switching layer or is covered by switching layer and that is to enhance an electric field generated by the two electrodes to thereby confine a switching area of the device at the FE feature. The device further includes a planar interlayer dielectric surrounding the device, for supporting the top electrode. A method of making a resistive memory device, employing in-situ vacuum deposition of all layers, is also provided. | 2016-05-19 |
20160141495 | Memory Device Constructions, Memory Cell Forming Methods, and Semiconductor Construction Forming Methods - Memory device constructions include a first column line extending parallel to a second column line, the first column line being above the second column line; a row line above the second column line and extending perpendicular to the first column line and the second column line; memory material disposed to be selectively and reversibly configured in one of two or more different resistive states; a first diode configured to conduct a first current between the first column line and the row line via the memory material; and a second diode configured to conduct a second current between the second column line and the row line via the memory material. In some embodiments, the first diode is a Schottky diode having a semiconductor anode and a metal cathode and the second diode is a Schottky diode having a metal anode and a semiconductor cathode. | 2016-05-19 |
20160141496 | METHOD AND PROCESSING APPARATUS FOR FABRICATING A MAGNETIC RESISTIVE RANDOM ACCESS MEMORY DEVICE - Methods of fabricating MRAM devices are provided along with a processing apparatus for fabricating the MRAM devices. The methods may include forming a ferromagnetic layer, cooling the ferromagnetic layer to a temperature within a range of between about 50° K to about 300° K, forming and oxidizing one or more Mg layers on the cooled ferromagnetic layer to form an MgO structure, forming a free layer on the MgO structure, and forming a capping layer on the free layer. | 2016-05-19 |
20160141497 | ORGANIC SEMICONDUCTIVE COMPONENT - A semiconductive component with a layer system includes at least one layer comprising a compound of the general formula (I) or (II). | 2016-05-19 |
20160141498 | HIGH PRECISION, HIGH RESOLUTION COLLIMATING SHADOW MASK AND METHOD FOR FABRICATING A MICRO-DISPLAY - The method for producing an OLED micro-display on a silicon wafer uses a collimating shadow mask formed on a silicon substrate. The mask is fabricated by depositing a material layer on the front side and on the back side of the substrate and etching a portion of the layer on the back side of the substrate to a reduced thickness of at least 20 microns. At least one opening is created in the etched portion of the substrate. The substrate beneath the opening is removed to create the mask. The mask is situated at a location spaced from the surface of the silicon wafer and exposed to a linear evaporation source. Organic layers are then deposited on the silicon wafer in a location aligned with the mask opening. | 2016-05-19 |
20160141499 | CONJUGATED POLYMERS AND DEVICES INCORPORATING THE SAME - Disclosed are conjugated polymers having desirable properties as semiconducting materials. Such polymers are cheap and easy to synthesize, and can exhibit good solubility and great solution processibility, and that enable highly efficient OPVs. | 2016-05-19 |
20160141500 | SOLAR CELL - An solar cell of an embodiment includes a first electrode, an electron transport layer containing a metal oxide, a self-assembled monolayer, a photoelectric conversion layer including a p-type semiconductor and an n-type semiconductor, and a second electrode. The self-assembled monolayer includes a fullerene-containing compound having a fullerene portion including a fullerene or a fullerene derivative, an absorption group to the metal oxide, and a bond group bonding the fullerene portion and the absorption group. The bond group contains a bivalent aromatic hydrocarbon group and a bivalent organic group which includes a carbon atom chain having 1 to 18 single-bonded carbon(s) or an atom chain in which a part of the carbon atom chain is substituted by at least one element selected from oxygen, nitrogen, and sulfur, as a main chain. | 2016-05-19 |
20160141501 | SELECTIVE PLACEMENT OF CARBON NANOTUBES VIA COULOMBIC ATTRACTION OF OPPOSITELY CHARGED CARBON NANOTUBES AND SELF-ASSEMBLED MONOLAYERS - A method of forming a structure having selectively placed carbon nanotubes, a method of making charged carbon nanotubes, a bi-functional precursor, and a structure having a high density carbon nanotube layer with minimal bundling. Carbon nanotubes are selectively placed on a substrate having two regions. The first region has an isoelectric point exceeding the second region's isoelectric point. The substrate is immersed in a solution of a bi-functional precursor having anchoring and charged ends. The anchoring end bonds to the first region to form a self-assembled monolayer having a charged end. The substrate with charged monolayer is immersed in a solution of carbon nanotubes having an opposite charge to form a carbon nanotube layer on the self-assembled monolayer. The charged carbon nanotubes are made by functionalization or coating with an ionic surfactant. | 2016-05-19 |
20160141502 | ORGANIC LIGHT EMITTING DISPLAY DEVICE - An organic light emitting display device is disclosed. The organic light emitting display device comprises at least two light emitting parts between an anode and a cathode, each of the light emitting parts having a light emitting layer and an electron transport layer, charge generation layers between the at least two light emitting parts, wherein at least one among the electron transport layers in the at least two light emitting parts includes a pyrimidine derivative at both sides of the core so as to reduce a driving voltage and increase an efficiency of the organic light emitting display device. | 2016-05-19 |
20160141503 | COMPOUND AND METHODS FOR PREPARING THE SAME AND ITS APPLICATIONS - The present invention provides a compound having the following formula (I): | 2016-05-19 |
20160141504 | ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device includes a first electrode, a second electrode facing the first electrode, and an organic layer between the first electrode and the second the organic layer including an emission layer. The organic layer includes a first compound represented by Formula 1 and a second compound represented by Formula 2: | 2016-05-19 |
20160141505 | ORGANIC ALLOY FOR ORGANIC OPTOELECTRONIC DEVICE, ORGANIC OPTOELECTRONIC DEVICE, AND DISPLAY DEVICE - Disclosed are an organic alloy for an organic optoelectric device that is an organic alloy of at least two kinds of organic compounds, the at least two kinds of organic compounds includes a first organic compound and a second organic compound, a difference between evaporation temperatures of the first organic compound and the second organic compound is less than or equal to about 20° C. at less than or equal to about 10 | 2016-05-19 |
20160141506 | NAPHTHO[2,1-b]FLUORANTHENE COMPOUND, ORGANIC LIGHT-EMITTING DEVICE, DISPLAY APPARATUS, LIGHTING APPARATUS, IMAGE FORMING APPARATUS, AND EXPOSING APPARATUS - Aspects of the present invention provide a naphtho[2,1-b]fluoranthene compound represented by the following general formula [1], which has property of high electron injection. | 2016-05-19 |
20160141507 | ANILINE DERIVATIVE, CHARGE-TRANSPORTING VARNISH AND ORGANIC ELECTROLUMINESCENT DEVICE - Provided is an aniline derivative represented by formula (1). | 2016-05-19 |
20160141508 | MATERIALS FOR ELECTRONIC DEVICES - The present invention relates to a compound of a formula (I), in which an electron-deficient group and an arylamino group are connected to one another via an intermediate group. The compound of the formula (I) is suitable as functional material in electronic devices. | 2016-05-19 |
20160141509 | MATERIAL FOR ORGANIC ELECTROLUMINESCENT DEVICE AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - A material for an organic electroluminescent device having high emission efficiency and an organic electroluminescent device utilizing the same. The material is represented by Formula 1. | 2016-05-19 |
20160141510 | ORGANIC ELECTROLUMINESCENT DEVICE - An organic electroluminescent device includes an anode, an emission layer, a first hole transport layer positioned between the anode and the emission layer, and a second hole transport layer positioned between the first hole transport layer and the emission layer, wherein the first hole transport layer includes an electron accepting material, and the second hole transport layer includes a hole transport material represented by the following Formula 1: | 2016-05-19 |
20160141511 | ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including a first electrode; a second electrode facing the first electrode; an emission layer between the first electrode and the second electrode; and an electron transport region between the second electrode and the emission layer, wherein the electron transport region includes at least one first compound represented by the following Formula 1, at least one second compound represented by the following Formula 2, and at least one third compound represented by the following Formula 30: | 2016-05-19 |
20160141512 | ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including a first electrode; a second electrode facing the first electrode; an emission layer between the first electrode and the second electrode; and an electron transport region between the emission layer and the second electrode; wherein the electron transport region includes a condensed cyclic compound represented by Formula 1 below: | 2016-05-19 |
20160141513 | ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device including a first electrode; a second electrode facing the first electrode; and an organic layer between the first electrode and the second electrode, the organic layer including an emission layer, wherein the organic layer includes a hole transport region between the first electrode and the emission layer, the hole transport region including at least one selected from a hole transport layer, a hole injection layer, and a buffer layer, and an electron transport region between the emission layer and the second electrode, the electron transport region including at least one selected from a hole blocking layer, an electron transport layer, and an electron injection layer, wherein the electron transport region includes a compound represented by Formula 1 and a compound represented by Formula 2 | 2016-05-19 |
20160141514 | HETERO RING COMPOUND AND ORGANIC LIGHT EMITTING DIODE COMPRISING SAME - The present specification provides a novel compound greatly improving the life span, efficiency, electrical and chemical stability and thermal stability of an organic light emitting device, and an organic light emitting device containing the compound in an organic compound layer. | 2016-05-19 |
20160141515 | MATERIAL FOR ORGANIC ELECTROLUMINESCENT ELEMENTS, ORGANIC ELECTROLUMINESCENT ELEMENT USING SAME, AND ELECTRONIC DEVICE - A material for an organic electroluminescence device including a compound represented by any of the formulas (1) to (3): | 2016-05-19 |
20160141516 | LIGHT EMITTING MATERIAL, DELAYED FLUORESCENT EMITTER, ORGANIC LIGHT EMITTING DEVICE, AND COMPOUND - A compound represented by the following general formula is useful as a light emitting material. X represents an oxygen atom or a sulfur atom. R | 2016-05-19 |
20160141517 | COMPOUND AND METHODS FOR PREPARING THE SAME AND ITS APPLICATIONS - The present invention provides a compound having the following formula (I): | 2016-05-19 |
20160141518 | NITROGEN-CONTAINING POLYCYCLIC COMPOUND AND ORGANIC ELECTROLUMINESCENT DEVICE USING THE SAME - Disclosed are a nitrogen-containing polycyclic compound and an organic electroluminescent device including the same. | 2016-05-19 |
20160141519 | ORGANIC LIGHT-EMITTING DEVICE - An organic light-emitting device includes an organic layer including an emission layer between a first electrode and the second electrode, and a hole transport region including an auxiliary layer between the first electrode and the emission layer, the hole transport region. The auxiliary layer includes a first material and a second material that satisfy Equations 1-1 and 1-2: | 2016-05-19 |
20160141520 | GERMANIUM-CENTERED DENDRIMER COMPOUND, AND ORGANIC OPTOELECTRIC ELEMENT COMPRISING SAME - Germanium-centered dendrimer compounds and organic optoelectronic devices comprising the same are provided. The organic optoelectronic device comprising the compound is capable of implementing high light-emitting ability and light-emitting efficiency, and improving thermal stability (heat resistance) of the organic optoelectronic devices, thereby increasing the lifetime thereof. | 2016-05-19 |
20160141521 | WHITE ORGANIC LIGHT-EMITTING DEVICE - The present invention relates to white organic light-emitting devices having separate stacked blue/green phosphorescent and red phosphorescent layers. The white organic light-emitting devices emit the desired natural white color and show a reduced power consumption, superior current efficiency, efficacy, external quantum efficiency (EQE) and/or lifetime. In particular, the efficiency of the white organic light emitting device is improved and at the same time the lifetime of the white organic light emitting device is increased. | 2016-05-19 |
20160141522 | Organic Electroluminescent Materials and Devices - This invention discloses iridium complexes containing phenylpyridine ligand wherein there is an aryl or heterocyclic ring fused into phenyl ring. The iridium complexes showed desired device performance. | 2016-05-19 |
20160141523 | LUMINESCENT COMPLEXES AND DISPLAY DEVICES - Cationic iridium III complexes including a ligand according to formula I are provided. The linking group Z is a hydrocarbylene linking group comprising at least two carbon atoms in a chain. Ligands according to formula I have increased rigidity about the central bond linking the two five membered rings by virtue of the linking group Z, when compared to previous biimidazole related ligands. Increased photoluminescence quantum yield may been obtained in cationic iridium III complexes provided with these ligands. | 2016-05-19 |
20160141524 | ORGANIC ELECTROLUMINESCENT MATERIALS AND DEVICES - Compounds that act as capture agents to sequester unsaturated metal complexes are provided. In particular, the compounds may be host materials, dopant materials, or co-dopant materials containing functional groups, such as an isocyanide or a phosphine group, which are suitable for trapping an unsaturated coordination complex. These compounds may be used in organic light emitting devices, particularly blue devices, to provide improved device lifetime. | 2016-05-19 |
20160141525 | ORGANIC LIGHT-EMITTING MATERIALS AND DEVICES - A novel compound containing two silicon centers with carbazole, dibenzothiophene, or triphenylene building blocks connected to the silicon is disclosed. The disclosed compound is useful as a host material in the emissive layers in phosphorescent OLEDs. | 2016-05-19 |
20160141526 | ORGANOMETALLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - An organometallic compound represented by Formula 1: | 2016-05-19 |
20160141527 | SYNTHESIS OF NEW SMALL MOLECULES/OLIGOMERS WITH HIGH CONDUCTIVITY AND ABSORPTION FOR OPTOELECTRONIC APPLICATION - Disclosed are semiconducting or conducting organic small molecules and oligomers that contain a central, electron rich, functionalized dihydrodicyclopentylanthracene core (or electron donor core) that is connected to at least one or two comparatively electron deficient monomeric unit or units (or electron acceptor units) that feature group 16 heteroatoms sulfur, selenium or tellurium or combinations thereof. Multiple electron rich cores can be linked together through one or more alkynyl linkages. The small molecules and oligomers can have the following generic structure and can be used in areas such as organic photovoltaic materials: | 2016-05-19 |
20160141528 | METHOD FOR MANUFACTURING SUBSTRATE HAVING TEXTURED STRUCTURE - A method for manufacturing a substrate with a concave-convex structure includes: forming a base material layer on a substrate; forming a base layer having a concave-convex pattern by transferring a concave-convex pattern of a mold to the base material layer; and forming a coating layer by coating the concave-convex pattern of the base layer with a coating material, wherein the coating layer is formed such that a thickness of the coating layer is in a range of 25 to 150% of standard deviation of depth of concavities and convexities of the base layer. The substrate with the concave-convex structure manufactured by this method has good light extraction efficiency and effectively prevents leak current in an organic light emitting diode having this substrate. | 2016-05-19 |
20160141529 | Method For Producing An Organic CMOS Circuit And Organic CMOS Circuit Protected Against UV Radiation - An organic CMOS circuit including a substrate having an N-type organic transistor and a P-type organic transistor formed thereon, the transistors respectively including a layer of N-type semiconductor material and a layer of P-type semiconductor material. A surface of each of the semiconductor material layers, opposite to the substrate, is covered with an anti-ultraviolet layer made of electrically-insulating material absorbing and/or reflecting ultra-violet rays. | 2016-05-19 |
20160141530 | SEMICONDUCTOR ELEMENT AND SEMICONDUCTOR ELEMENT MANUFACTURING METHOD - In an organic TFT ( | 2016-05-19 |
20160141531 | THIN FILM TRANSISTOR - A thin film transistor includes: a gate electrode; a gate insulating layer that covers the gate electrode; a source electrode and a drain electrode that are provided on the gate insulating layer; and an organic semiconductor layer that has a channel region between the source electrode and the drain electrode. The source electrode and the drain electrode each include a first conductive layer that increases adhesion with the gate insulating layer; a second conductive layer that has low electrical resistance; and a third conductive layer that make ohmic contact with the organic semiconductor layer. The third conductive layer has a first contact surface that contacts the gate insulating layer, and a second contact surface that contacts a side face of the first conductive layer and a side face of the second conductive layer facing the channel region. | 2016-05-19 |
20160141532 | SINGLE ELECTRON TRANSISTOR AND METHOD FOR FABRICATING THE SAME - A transistor and a fabrication method thereof. A transistor includes a channel region including linkers, formed on a substrate, and a metallic nanoparticle grown from metal ions bonded to the linkers, a source region disposed at one end of the channel region, a drain region disposed at the other end of the channel region opposite of the source region, and a gate coupled to the channel region and serving to control migration of at least one charges in the channel region. | 2016-05-19 |
20160141533 | Energy Conversion Device and Method for Making and Using Same - An energy conversion device comprises an apparatus and a method for employing energy from an electron- and, optionally, photon-containing energy wave that is induced in one or more aggregated molecular ensembles. Emission is stimulated from the ensembles by a wide variety of energy inputs, and energy derived from this electron and/or photon energy wave is useful for modulation of signals in circuits; performing chemical reduction reactions; and performing as an energy conversion device, e.g., as a photovoltaic energy converter. Although differing from a laser by virtue its production of, inter alia, a charge transfer rather than merely light, the device of the invention can be employed in virtually all of the same fields in which a laser is utilized. | 2016-05-19 |
20160141534 | METHOD FOR PRODUCING AN ACTIVE LAYER CAPABLE OF EMITTING AN ELECTRIC CURRENT UNDER IRRADIATION - The present invention relates to the field of organic electronics for photovoltaic energy, i.e. conversion of light energy into electricity. More particularly, this invention relates to a method of fabrication of an active layer capable of emitting an electric current under light irradiation combining a ferroelectric polymer material and a semiconducting polymer for converting light energy into electricity. | 2016-05-19 |
20160141535 | PHOTOACTIVE LAYER PRODUCTION PROCESS - The invention relates to processes for producing semi-transparent photoactive layers, and devices comprising the same. The invention provides a process for producing a semi-transparent photoactive layer comprising: a) disposing on a substrate a composition, which composition comprises a photoactive material or one or more precursors of a photoactive material, to form a resulting layer; and b) dewetting the resulting layer to form a dewet layer of the photoactive material, wherein the dewet layer of the photoactive material is semi-transparent. The invention also provides a semi-transparent photoactive layer comprising a substrate and, disposed on the substrate, a dewet layer of a photoactive material, wherein the dewet layer of a photoactive material comprises a plurality of absorbing regions which comprise the photoactive material and a plurality of transparent regions which do not substantially comprise the photoactive material. Devices and processes for producing devices comprising the semi-transparent layer are also disclosed, as are building components and automotive components comprising the semi-transparent layer. | 2016-05-19 |
20160141536 | ORGANIC SOLAR CELL AND METHOD OF MANUFACTURING THE SAME - The present specification provides an organic solar cell and a method of manufacturing the same. | 2016-05-19 |
20160141537 | NANOSTRUCTURED ANODE-CATHODE ARRAY FOR OPTOELECTRONIC DEVICES - The nanostructured anode-cathode array for optoelectronic devices is an interdigitated electrode assembly for organic optoelectronic devices. The electrode assembly provides efficiency enhancement in metal oxide (ZnO) and metal (Ag) electrodes for organic optoelectronic devices. The assembly has vertically orientated nanorods in a range of patterns, configurations and volume fractions. The rods have lateral dimensions in the range of 1 nm-500 nm and lengths of 1 nm-10,000 nm. The anode-cathode array can be tuned by altering the dimensions of the individual electrodes and/or modifying the center-to-center distance of anode-anode, cathode-cathode or anode-cathode pairs. | 2016-05-19 |
20160141538 | ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display includes: a substrate; a first electrode on the substrate; a second electrode opposed to the first electrode; a first light emitting unit and a second light emitting unit between the first electrode and the second electrode; and a charge generation layer between the first light emitting unit and the second light emitting unit. The first light emitting unit includes a blue fluorescent light emitting layer. The second light emitting unit includes a blue light emitting layer and a yellow light emitting layer. | 2016-05-19 |
20160141539 | ORGANIC EL ELEMENT AND METHOD FOR MANUFACTURING ORGANIC EL ELEMENT - An organic EL element includes: an anode; a light-emitting layer that is disposed above the anode; a first interlayer that is disposed on the light-emitting layer; a second interlayer that is disposed on the first interlayer; a functional layer that is disposed on the second interlayer; and a cathode that is disposed above the functional layer. The first interlayer includes a fluorine compound including a first metal that is an alkali metal or an alkaline-earth metal. The second interlayer includes a second metal that has a property of cleaving a bond between the first metal and fluorine in the fluorine compound. The functional layer has at least one of an electron transport property and an electron injection property. A thickness D1 of the first interlayer and a thickness D2 of the second interlayer satisfy 3%≦D2/D1≦25%. | 2016-05-19 |
20160141540 | ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode display, including a substrate; an organic light emission display layer on the substrate; and a quantum dot layer on the organic light emission display layer, the substrate representing a color of a first wavelength range, and the quantum dot layer color-shifting the color of the first wavelength range to form a transparent light passing through the quantum dot layer. | 2016-05-19 |
20160141541 | ORGANIC EL ELEMENT, AND ORGANIC EL ELEMENT MANUFACTURING METHOD - An organic EL element | 2016-05-19 |
20160141542 | ORGANIC LIGHT EMITTING DEVICE - According to one embodiment, an organic light emitting device is described including a first light emitting unit, a second light emitting unit and a charge generation layer wherein the second light emitting unit is stacked over the first light emitting unit and is connected to the first light emitting unit by means of the charge generation layer and wherein the charge generation layer includes an electron transport layer, a transition metal oxide layer arranged over the electron transport layer and a diffusion suppressing layer arranged between the electron transport layer and the transition metal oxide layer to separate the electron transport layer from the transition metal oxide layer. | 2016-05-19 |
20160141543 | BLUE LIGHT ORGANIC LIGHT-EMITTING DIODE AND DISPLAY INCLUDING SAME - The present disclosure provides a blue light organic light-emitting diode, which includes a first electrode layer; a first hole injection layer disposed on the first electrode layer; a second hole injection layer disposed on first hole injection layer; a hole transport layer disposed on the second hole injection layer; a blue light emitting material layer disposed on the hole transport layer; an electron transport layer disposed on the blue light emitting material layer; and a second electrode layer disposed on the electron transport layer, wherein the second hole injection layer has a thickness of 85 nm˜105 nm. The present disclosure further provides a display including the device. The blue light organic light-emitting diode of the present disclosure can control blue light energy components having a wavelength less than 435 nm within 0.2%, which reduces the harm of the blue light in the wave band to human eyes to a great extent. | 2016-05-19 |
20160141544 | ORGANIC LIGHT-EMITTING DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting display apparatus includes a substrate, and a thin-film transistor and a capacitor formed over the substrate. The apparatus further includes an interlayer insulation layer, a first organic insulating layer and a second organic insulation layer sequentially stacked over the substrate and covering the thin-film transistor and a capacitor. The first organic insulation layer includes a first hole that does not overlap with the thin-film transistor and the capacitor when viewed in a direction perpendicular to a major surface of the substrate. The apparatus further includes a pixel electrode formed over the interlayer insulating layer and the first organic insulating layer. The pixel electrode includes a first portion disposed inside the first hole and a second portion disposed over the first organic insulating layer and outside the first hole. The apparatus includes a light emission layer and an opposite layer formed over the pixel electrode. | 2016-05-19 |
20160141545 | NARROW BEZEL LARGE AREA ORGANIC LIGHT EMITTING DIODE DISPLAY - The present disclosure relates to a narrow bezel large area organic light emitting diode display. An organic light emitting diode display includes a substrate having a display area and a non-display area; a gate driver disposed in the non-display area; a ground line overlapping on the gate driver with a passivation layer; an anode electrode disposed in the display area; an organic light emission layer disposed in the display area and stacked on the anode electrode; and a cathode electrode stacked on the organic light emission layer and contacting the ground line. | 2016-05-19 |
20160141546 | DISPLAY PANEL - An organic light emitting diode (OLED) display device and a manufacturing method thereof are provided. The OLED display device includes a first substrate, an organic light emitting element disposed on the first substrate, a first inorganic layer, and a second inorganic layer. The organic light emitting element includes a first electrode disposed on the first substrate, an organic light emitting layer disposed on the first electrode, and a second electrode disposed on the organic light emitting layer. The first inorganic layer covers the organic light emitting element, wherein the first inorganic layer has a first thickness. The second inorganic layer covers the first inorganic layer and covers the organic light emitting element, wherein the second inorganic layer has a second thickness larger than the first thickness, and the second inorganic layer has a consistency less than the consistency of the first inorganic layer. | 2016-05-19 |
20160141547 | ORGANIC LIGHT-EMITTING DISPLAY APPARATUS AND METHOD OF MANUFACTURING THE SAME - An organic light-emitting display apparatus and a method of manufacturing the same, the organic light-emitting display apparatus including a first substrate that includes a display area and a peripheral area; a second substrate that faces the first substrate; a first metal layer in the peripheral area of the first substrate, the first metal layer including a plurality of holes; and a sealing member that bonds the first substrate to the second substrate, wherein at least one of the plurality of holes includes a region that does not overlap the sealing member. | 2016-05-19 |
20160141548 | ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - An organic electroluminescent display device includes a display region configured to display pixels; a frame region configured to surround the display region; a substrate; an organic electroluminescent element disposed on the substrate; a sealing member configured to cover the organic electroluminescent element; a lead wire disposed on the substrate and extending from a region covered with the sealing member to an outer side of the sealing member; and one or more organic insulators disposed within the frame region instead of within the display region. The lead wire includes two opposite side portions. The one organic insulator or each organic insulator covers part of at least one of the two side portions. The sealing member covers the one or more organic insulators. | 2016-05-19 |
20160141549 | METHOD OF MANUFACTURING DISPLAY DEVICE, METHOD OF EXPOSING TERMINAL OF DISPLAY DEVICE AND DISPLAY DEVICE - A method of manufacturing a display device includes bonding together a first substrate and a second substrate sandwiching a first bonding material and a second bonding material, a substrate being formed by bonding the first and the second substrate and including a plurality of the display devices, the first bonding material being arranged in at least a display region, the second bonding material being a part of a terminal region and being arranged so as to cover the terminal, and the second bonding material having a stronger adhesion per unit area with respect to the second substrate than the first bonding material; cutting the second substrate at a cutting position between the terminal region and the display region for each of the display devices; removing the second substrate of the terminal region from the display device; and separating each of the display devices from the plurality of display devices. | 2016-05-19 |
20160141550 | PACKAGING METHOD OF ORGANIC LIGHT EMITTING DISPLAY PANEL, ORGANIC LIGHT EMITTING DISPLAY PANEL AND DISPLAY DEVICE - A packaging method for an organic light emitting display panel, an organic light emitting display panel and a display device are disclosed. The packaging method includes: forming a water/oxygen blocking layer that covers a whole base substrate on the base substrate with an organic light emitting device and a peripheral bonding region formed thereon, etching the water/oxygen blocking layer on the base substrate, so as to at least remove the water/oxygen blocking layer on a connection terminal within the bonding region, and to retain the water/oxygen blocking layer on the organic light emitting device. With the packaging method, an organic light emitting display panel with a narrow frame can be realized. | 2016-05-19 |
20160141551 | ORGANIC LIGHT-EMITTING DIODE (OLED) DISPLAY, ELECTRONIC DEVICE INCLUDING THE SAME, AND METHOD OF MANUFACTURING THE OLED DISPLAY - An organic light-emitting diode (OLED) display, electronic device including the same and method of manufacturing the OLED display are disclosed. In one aspect, the OLED display includes a first plastic layer, a first barrier layer formed over the first plastic layer and a first intermediate layer formed over the first barrier layer. The OLED display also includes a second plastic layer formed over the first intermediate layer, a second intermediate layer formed over the second plastic layer and a second barrier layer formed over the second intermediate layer. The OLED display further includes an OLED layer formed over the second barrier layer and a thin-film encapsulation layer encapsulating the OLED layer. | 2016-05-19 |
20160141552 | FLEXIBLE DISPLAY AND METHOD FOR FABRICATING THE SAME - The invention provides a flexible display and method for fabricating the same. The flexible display includes: a first flexible substrate and an oppositely disposed second flexible substrate; a TFT layer and an emitting unit, sequentially formed on the first flexible substrate; a color filter layer and an overcoat formed on the second flexible substrate; a fill formed between the first flexible substrate and the second flexible substrate; and a dam formed between the first flexible substrate and the second flexible substrate and surrounding the fill. | 2016-05-19 |
20160141553 | ORGANIC LIGHT-EMITTING APPARATUS - An organic light-emitting apparatus includes a flexible substrate, an organic light-emitting device on the flexible substrate, the light emitting device including a first electrode, an emission layer, and a second electrode sequentially disposed on the flexible substrate, and an anisotropic film on the second electrode of the organic light-emitting device. The anisotropic film includes an anisotropic material horizontally oriented with respect to a surface of the flexible substrate. | 2016-05-19 |
20160141554 | LIGHT EMITTING APPARATUS - An illuminator includes a light-emitting element and a light extraction sheet which transmits light occurring from the light-emitting element. The light-emitting element includes a first electrode having a light transmitting property, a second electrode, and an emission layer between the first and second electrodes. The light extraction sheet includes a light-transmitting substrate having a first face and a second face, a first light extraction structure on the first face side of the light-transmitting substrate, and a second light extraction structure on the second face side of the light-transmitting substrate. The first light extraction structure includes a low-refractive index layer and a high-refractive index layer having a higher refractive index than the low-refractive index layer. The second light extraction structure is arranged so that light which is transmitted through the light-transmitting substrate and arrives at an incident angle of 60 to 80 degrees has an average transmittance of 20% or more. | 2016-05-19 |
20160141555 | ORGANIC LIGHT EMITTING DISPLAY DEVICE - Discussed is an organic light emitting display device for reducing a color defect or a color difference which occurs in the front or side of the organic light emitting display device. The organic light emitting display device can include a first electrode, a second electrode and an organic layer between the first electrode and the second electrode, the organic layer including at least one emission part. The organic layer is configured for a peak wavelength of an electroluminescence (EL) spectrum of the organic light emitting display device emitted from the at least one emission part to have a range from 10 nm less a predetermined peak wavelength to 10 nm more than the predetermined peak wavelength. | 2016-05-19 |
20160141556 | SURFACE EMITTING DEVICE AND SMART DEVICE - The purpose of the present invention is to provide a surface emitting device in which the light output surface appears black at times that light is not being emitted, and areas in which patterns are formed are not visible at times that light is not being emitted. This surface emitting device ( | 2016-05-19 |
20160141557 | METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DIODE (OLED) DISPLAY - A method of manufacturing an organic light-emitting diode (OLED) display is disclosed. In one aspect, the method includes forming an OLED over a first substrate and forming a sealing member over the first substrate or a second substrate opposite to the first substrate, to at least partially surround the OLED, wherein a plurality of holes are defined in a first region of the sealing member. The method further includes aligning the first and second substrates with the sealing member interposed therebetween and irradiating a laser beam along a path of the sealing member. | 2016-05-19 |
20160141558 | ORGANIC LIGHT-EMITTING DIODE DISPLAY AND MANUFACTURING METHOD THEREOF - An OLED display and a method of manufacturing thereof are disclosed. In one aspect, the display includes a scan line formed over a substrate and configured to transfer a scan signal, a data line and a driving voltage line crossing the scan line and respectively configured to transfer a data voltage and a driving voltage, and a switching transistor electrically connected to the scan line and the data line and including a switching drain electrode configured to output the data voltage. The display also includes a driving transistor including a driving gate electrode, a driving drain electrode, and a driving source electrode electrically connected to the switching drain electrode. The display further includes a storage capacitor including a first storage electrode electrically connected to the driving gate electrode and a second storage electrode formed on the same layer as the driving voltage line. | 2016-05-19 |
20160141559 | Organic Light Emitting Diode Display Device and Method of Fabricating the Same - An organic light emitting diode display device comprises: first and second substrates facing and spaced apart from each other; a gate line and a data line on the first substrate, the gate line and the data line crossing each other to define a plurality of pixel regions; at least one thin film transistor coupled to the gate line and the data line; a light emitting diode coupled to the at least one thin film transistor, the light emitting diode including a first electrode, an emitting layer and a second electrode; and a passivation layer on the light emitting diode, the passivation layer having a smaller area than the second electrode. | 2016-05-19 |
20160141560 | RECHARGEABLE BATTERY - A rechargeable battery includes: an electrode assembly having first and second electrodes of different polarities; a finishing tape that covers a side and a lower end of the electrode assembly with respect to a virtual longitudinal center line perpendicular to a bottom face of the electrode assembly; a case that holds the electrode assembly and has an opening; a cap assembly coupled to the opening and sealing the case; a first current collecting member and a second current collecting member located within the case and connected to the first electrode and the second electrode, respectively; and a first terminal and a second terminal located on top of the cap assembly and connected to the first current collecting member and the second current collecting member, respectively. | 2016-05-19 |
20160141561 | ELECTROCHEMICAL CELL AND METHOD OF MANUFACTURING ELECTROCHEMICAL CELL - To provide an electrochemical cell and a method of manufacturing the electrochemical cell capable of securing the electric reliability while simplifying the structure and reducing manufacturing man-hours and costs. The electrochemical cell includes an electrode group in which a positive electrode and a negative electrode are overlapped through a separator, a positive electrode container to which a positive electrode projecting portion of the positive electrode which projects from an overlapping portion with respect to the negative electrode is electrically connected and a negative electrode container to which a negative electrode projecting portion of the negative electrode which projects from the overlapping portion is electrically connected as well as demarcating a housing space which houses the electrode group with the positive electrode container, in which a conductive material containing a carbon-based material is interposed between the positive electrode projecting portion and the positive electrode container. | 2016-05-19 |
20160141562 | ELECTROCHEMICAL ACCUMULATOR WITH PACKAGING COMPRISING AT LEAST ONE POLYARYLETHERKETONE (PAEK) SHEET, SHEET AND ASSOCIATED MANUFACTURING METHODS - The invention concerns a new flexible or rigid packaging for an electrochemical accumulator (A). The packaging contains at least one polyaryletherketone (PAEK) sheet, notably a polyetheretherketone (PEEK™) sheet. According to a preferred embodiment, a polyaryletherketone (PAEK) sheet incorporates within it at least one metal stud constituting one of the poles of the accumulator. The packaging is useful for the packaging of lithium-ion accumulators. | 2016-05-19 |
20160141563 | LITHIUM SECONDARY BATTERY - The present application relates to the field of energy storage devices, in particular to a lithium secondary battery. The battery comprises a shell having a bottom, a cap assembly, a positive terminal, a negative terminal, an electrode assembly and electrolyte, wherein a side wall of the shell comprises a pair of main planes and a pair of side faces, and the opening is arranged opposite to the bottom; the electrode assembly is formed by winding a positive plate, a negative plate and a composite separation film comprising a polymer microporous film layer and a ceramic composite material layer; a first extension portion extends from one end of the positive plate facing the cap assembly and is electrically connected with the positive terminal; a second extension portion extends from one end of the positive plate facing the cap assembly and is electrically connected with the negative terminal; and the air permeability of the composite separation film and the thickness of the side faces satisfy the relationship of 0.05 s/(100 mL·μm)≦A/B≦1.0 s/(100 mL·μm). The present application provides a lithium secondary battery capable of improving the safety performance of the battery effectively. | 2016-05-19 |
20160141564 | RECHARGEABLE BATTERY - A rechargeable battery includes an electrode assembly having a first electrode and a second electrode of different polarities, a case with an opening that houses the electrode assembly, the case having a pair of opposing first side walls, each first side wall of the pair of first side walls including at least one groove extending from the opening of the case to an opposite side of the case, a cap assembly coupled to the opening of the case to seal the case, a first current collecting member and a second current collecting member inside the case, the first and second current collecting members being connected to the first electrode and the second electrode, respectively, and a first terminal and a second terminal on the cap assembly, the first and second terminals being connected to the first current collecting member and the second current collecting member, respectively. | 2016-05-19 |
20160141565 | SECONDARY BATTERY TO WHICH ELECTROLYTE CAN BE ADDITIONALLY SUPPLIED - Disclosed is a secondary battery to which an electrolyte can be additionally supplied. More particularly, provided is a secondary battery including an electrode assembly that includes a positive electrode, a negative electrode, and a separator disposed between the positive electrode and the negative electrode, and a porous elastic body that can contain an electrolyte, which are installed in a battery case. | 2016-05-19 |
20160141566 | ASSEMBLED-BATTERY STACKER AND ASSEMBLED BATTERY - This assembled-battery stacker includes: a pair of end plates which is formed from a first steel sheet and is arranged at both ends of a battery block in the thickness direction; a connecting member which is formed from a second steel sheet and mutually connects the pair of the end plates; wherein the end plate includes: a bottom wall part that faces an end face of the battery block in the thickness direction; and a side wall part that Mends from both sides of the bottom wall part to the thickness direction and covers a part of a lateral face of the battery block; and wherein the connecting member is arranged in order for the connecting member to overlap at least a part of the side wall part. | 2016-05-19 |
20160141567 | Shell Assembly for Electronic Device Battery, Plastic and Metal Assembly and Plastic Part - A battery shell assembly for an electronic device, a plastic and metal assembly and a plastic part are disclosed. The battery shell assembly for the electronic device includes a plastic part, a metal part and a thin film, wherein, the plastic part has a window and a first combination portion; the metal part includes a sheet portion covering the window and a second combination portion matching with the first combination portion, and an accommodation space used for accommodating a battery of the electronic device is formed after the plastic part is combined with the metal part; and the thin film adheres to and covers a juncture of the plastic part and the metal part exposed relative to the accommodation space. | 2016-05-19 |
20160141568 | ELECTRONIC DEVICE WITH BATTERY TERMINAL SEALING MEMBER - There is provided an electronic device includes a detachable battery pack from a casing; and a battery pack loading section in which the battery pack is loaded. The battery pack loading section includes a battery receiving surface that receives a battery and a peripheral wall that is formed at the peripheral edge of the battery receiving surface and faces the side surface of the battery. A connector to be connected to a battery terminal of the battery pack is disposed on the peripheral wall. A raised portion that is raised toward the battery pack is formed on the battery receiving surface and on the peripheral wall in the battery pack loading section. The battery pack has an elastic sealing member surrounding the battery terminal at a portion in contact with the raised portion in a manner disposed in the battery pack loading section. | 2016-05-19 |
20160141569 | TRACTION BATTERY ASSEMBLY WITH THERMAL DEVICE - A traction battery includes a first thermal plate disposed within a case, and cells disposed on the first thermal plate. A bracket arrangement is disposed within the case. The bracket arrangement includes a second thermal plate spaced apart from the first thermal plate, and a leg defining at least a portion of a fluid path connecting flow channels of the first and second thermal plates. An electronic component is disposed on the second thermal plate. | 2016-05-19 |
20160141570 | ELECTRIC STORAGE APPARATUS - An electric storage apparatus includes a plurality of electric storage devices, each electric storage device including a cell case in which an electrode assembly is accommodated, the cell case having a substantially hexahedral shape, the cell case being formed with an external terminal on one surface thereof, a first external housing for housing the electric storage devices, the first external housing comprising a pair of first main wall portions that are opposed to each other and a pair of first side wall portions that are opposed to each other, the pair of first main wall portions and the pair of first side wall portions defining a first opening at at least one end in a first direction thereof, and a second external housing for housing the first external housing. | 2016-05-19 |
20160141571 | BATTERY UNIT - A battery unit may include a main accommodation casing that includes a power output terminal, at least one sub-module that is accommodated in the main accommodation casing and a control unit that is accommodated in the main accommodation casing and controls at least one of charging and discharging of a unit battery, wherein in the sub-module, two or more battery blocks are accommodated inside a sub-accommodation casing so that the terminals of the battery blocks each including a plurality of unit batteries are not exposed and the battery blocks are connected to each other through an electric connection member. | 2016-05-19 |
20160141572 | LIQUID TRAP FOR A LITHIUM ION BATTERY SYSTEM - A lithium ion battery system includes a liquid trap system configured to collect liquid from a vent pathway associated with a lithium ion battery module. The vent pathway is configured to flow battery cell effluent away from the lithium ion battery module and out of the lithium ion battery system. The liquid trap system has a liquid removal path configured to fluidly couple to the vent pathway, a liquid collection vessel fluidly coupled to the liquid removal path and configured to collect liquid removed from the vent pathway, and a liquid outlet path of the liquid collection vessel configured to allow liquid to exit the liquid collection vessel. The liquid collection vessel has a position relative to the vent pathway that allows liquid within the vent pathway to move toward the liquid collection vessel by the force of gravity. | 2016-05-19 |
20160141573 | BATTERY PACK - Battery pack includes the following elements: large number of battery cells; lower holding member provided to hold the lower parts of large number of battery cells aligned by battery holding parts, and having lower openings for exposing the negative electrode terminal side of the battery cells; a positive electrode current collecting plate and a negative electrode current collecting plate connected to the corresponding terminals of the battery cells; and holder formed of upper holding member and lower holding member. In holder, upper gas channel for guiding the gas jetted from battery cells to the front side is formed. Inside holder, lower gas channel is formed on the periphery of the large number of battery cells. In holder, exhaust port is formed. In upper holding member, a communication hole for allowing communication between upper gas channel and lower gas channel is formed. | 2016-05-19 |