37th week of 2015 patent applcation highlights part 57 |
Patent application number | Title | Published |
20150255696 | THERMOELECTRIC CONVERSION ELEMENT AND METHOD FOR PRODUCING THE SAME - A thermoelectric conversion element includes a film composed of a conductive oxide, a first electrode disposed on one end of the film composed of the conductive oxide, and a second electrode disposed on another end of the film composed of the conductive oxide, wherein the conductive oxide has a tetragonal crystal structure expressed by ABO | 2015-09-10 |
20150255697 | HEAT RECYCLING SYSTEM - A heat recycling system for recycling heat from an electronic device includes a first tube, a second tube, and a plurality of thermoelectric modules. The first tube is used to receive heated air from the electronic device. The second tube is used to receive cooling air from outside. A first end of each thermoelectric module is inserted into the first tube, and a second end of each thermoelectric module is inserted into the second tube. Therefore, the number of thermoelectric modules may generate current. | 2015-09-10 |
20150255698 | THERMOELECTRIC DEVICE - A thermoelectric device includes a semiconductor stacked thermoelectric thin film including a first high-purity layer composed of SiGe as a main material and a composite carrier supply layer formed on the first high-purity layer. The composite carrier supply layer includes a second high-purity layer and third high-purity layer composed of Si as a main material, and a carrier supply layer held between the second and third high-purity layers and composed of SiGe as a main material. The carrier supply layer is a P-type carrier supply layer to which an additive of a group XIII element is added or a N-type carrier supply layer to which an additive of a group XV element is added. | 2015-09-10 |
20150255699 | PIEZOELECTRONIC DEVICE WITH NOVEL FORCE AMPLIFICATION - A piezoelectronic device with novel force amplification includes a first electrode; a piezoelectric layer disposed on the first electrode; a second electrode disposed on the piezoelectric layer; an insulator disposed on the second electrode; a piezoresistive layer disposed on the insulator; a third electrode disposed on the insulator; a fourth electrode disposed on the insulator; a semi-rigid housing surrounding the layers and the electrodes; wherein the semi-rigid housing is in contact with the first, third, and fourth electrodes and the piezoresistive layer; wherein the semi-rigid housing includes a void. The third and fourth electrodes are on the same plane and separated from each other in the transverse direction by a distance. | 2015-09-10 |
20150255700 | PIEZOELECTRIC VIBRATING PIECE AND PIEZOELECTRIC VIBRATOR - To provide a piezoelectric vibrating piece capable of preventing short circuit at the time of mounting caused by miniaturization. In a piezoelectric vibrating piece having a support arm portion provided with mount electrodes between a pair of vibrating arm portions, a layout wiring connected to the first mount electrode on the base end side of the support arm portion is formed on a mount surface, and at least a layout wiring passing the vicinity of the first mount electrode in the layout wirings connected to the second mount electrode on the tip side of the support arm portion is formed on an opposite mount surface side, thereby preventing short circuit of a conductive adhesive for bonding the first mount electrode to an electrode on the package side with respect to the layout wiring on the second mount electrode side. | 2015-09-10 |
20150255701 | PIEZOELECTRIC VIBRATING PIECE AND PIEZOELECTRIC VIBRATOR - To increase the strength of mounting at the time of mounting a piezoelectric vibrating piece on a package. In a piezoelectric vibrating piece having a pair of support arm portions which are provided with mount electrodes outside a pair of vibrating arm portions, concave portions to which a conductive adhesive used for mounting to the package can penetrate are formed in side end surfaces on the inner sides in a width direction of the respective support arm portions near the mount electrodes. | 2015-09-10 |
20150255702 | ELECTRONIC DEVICE, ELECTRONIC APPARATUS AND MOVING OBJECT - An electronic device includes a base substrate in which first and second substrates are laminated and a lid which is bonded to the base substrate. The base substrate includes notched portions which are provided on lateral sides and castellations which are disposed in the notched portions. The lid includes a main body which is disposed so as to face the base substrate, and claw portions, protruding from the main body, which are disposed within the notched portions. A length of the claw portions is equal to or less than a thickness of the first substrate. | 2015-09-10 |
20150255703 | CERAMIC POWDER, PIEZOELECTRIC CERAMIC, PIEZOELECTRIC ELEMENT, AND ELECTRONIC EQUIPMENT - A ceramic powder contains a metal oxide represented by the following general formula (1). The ceramic powder has a single perovskite-type crystal phase. The ceramic powder is composed of particles having an average equivalent circular diameter in the range of 100 nm or more and less than 1000 nm and has a ratio c | 2015-09-10 |
20150255704 | PIEZOELECTRIC ELEMENT AND PIEZOELECTRIC VIBRATOR HAVING THE SAME - A piezoelectric element and a piezoelectric vibrator having the same are disclosed. A piezoelectric element according to the present invention includes: a plurality of ceramic piezoelectric layers configured to contract and expand according to supply of electric power; an electrode pattern constituted with electrodes laminated alternately with the plurality of ceramic piezoelectric layers; and a flexible layer formed on a surface of an upper-most electrode of the electrode pattern so as to protect the upper-most electrode and configured to prevent a crack from occurring by contracting and expanding according to contraction and expansion of the ceramic piezoelectric layers. | 2015-09-10 |
20150255705 | METHOD OF MANUFACTURING BISTABLE STRIPS HAVING DIFFERENT CURVATURES - A method of manufacturing bistable strips having different curvatures, each strip including a plurality of portion of layers of materials, wherein at least one specific layer portion is deposited by a plasma spraying method in conditions different for each of the strips. | 2015-09-10 |
20150255706 | MAGNETIC MEMORY AND METHOD FOR MANUFACTURING THE SAME - According to one embodiment, a magnetic memory is disclosed. The magnetic memory includes an underlying structure having conductivity provided on the substrate and including a first layer with a polycrystalline structure and a second layer with an amorphous structure, and a magnetoresistive element provide on the underlying layer. The magnetoresistive element includes a first magnetic layer provided on the underlying layer, a non-magnetic layer provided on the first magnetic layer, and a second magnetic layer provided on the non-magnetic layer. | 2015-09-10 |
20150255707 | MAGNETIC MEMORY DEVICE - According to one embodiment, a magnetic memory device includes a first electrode, a second electrode having magnetism and having a major surface facing a major surface of the first electrode, a third electrode having a major surface facing the major surface of the first electrode and located away from the second electrode, and a movable member having magnetism and located between the first and second electrodes and between the first and third electrodes, the movable member being able to be brought into contact with the first electrode and being able to be selectively brought into contact with one of the second and third electrodes. | 2015-09-10 |
20150255708 | ELECTRONIC DEVICE AND METHOD FOR FABRICATING THE SAME - An electronic device that includes a first structure including a first magnetic layer, a second magnetic layer, and a tunnel barrier layer which is interposed between the first magnetic layer and the second magnetic layer; and a second structure disposed over the first structure, and including a magnetic correction layer for correcting a magnetic field of the first structure, wherein a width of a bottom surface of the second structure is larger than a width of a top surface of the first structure. | 2015-09-10 |
20150255709 | SEMICONDUCTOR DEVICE HAVING A BURIED MAGNETIC SENSOR - Provided is a magnetic field sensing device (or Hall device) including a magnetic sensor (or Hall sensor) that is provided in buried form inside of a semiconductor substrate. A top portion of the magnetic field sensing device is connected to analog and digital circuitry, and the magnetic sensor included in the magnetic field sensing device obtains magnetic data that is provided to the circuitry. Accordingly, a magnetic field sensor having a reduced size is produced. | 2015-09-10 |
20150255710 | MAGNETIC MEMORY, MAGNETIC MEMORY DEVICE, AND OPERATION METHOD OF MAGNETIC MEMORY - A magnetic memory includes a magnetic thin line including a plurality of magnetic domains, a reference layer having a magnetization, a nonmagnetic layer, a first fixed magnetization part having a magnetization, a second fixed magnetization part having a magnetization, a first electrode, a second electrode, and a third electrode. | 2015-09-10 |
20150255711 | PERPENDICULAR SPIN TRANSFER TORQUE MEMORY (STTM) DEVICE WITH ENHANCED STABILITY AND METHOD TO FORM SAME - Perpendicular spin transfer torque memory (STTM) devices with enhanced stability and methods of fabricating perpendicular STTM devices with enhanced stability are described. For example, a material layer stack for a magnetic tunneling junction includes a fixed magnetic layer. A dielectric layer is disposed above the fixed magnetic layer. A free magnetic layer is disposed above the dielectric layer. A conductive oxide material layer is disposed on the free magnetic layer. | 2015-09-10 |
20150255712 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - According to one embodiment, a nonvolatile semiconductor memory device is provided with a magnetoresistive effect element formed on a substrate, and a insulating film formed above the substrate to cover the magnetoresistive effect element. The insulating film is formed of a silicon nitride, and has a portion of a higher nitrogen concentration than a surface portion thereof. | 2015-09-10 |
20150255713 | Resistance Variable Memory Structure and Method of Forming the Same - A memory structure includes a first dielectric layer, having a first top surface, over a conductive structure. A first opening in the first dielectric layer exposes an area of the conductive structure, and has an interior sidewall. A first electrode structure, having a first portion and a second portion, is over the exposed area of the conductive structure. The second portion extends upwardly along the interior sidewall. A resistance variable layer is disposed over the first electrode. A second electrode structure, having a third portion and a fourth portion, is over the resistance variable layer. The third portion has a second top surface below the first top surface of the first dielectric layer. The fourth portion extends upwardly along the resistance variable layer. A second opening is defined by the second electrode structure. At least a part of a second dielectric layer is disposed in the second opening. | 2015-09-10 |
20150255714 | Use of Centrosymmetric Mott Insulators in a Resistive Switched Memory for Storing Data - A material belonging to the family of centrosymmetric Mott insulators is used as an active material in a resistively switched memory for storing data. The material is placed between two electrical electrodes, by virtue of which an electric field of a preset value is applied in order to form, by way of an electron avalanche effect, an elementary information cell that has at least two logic states. | 2015-09-10 |
20150255715 | NONVOLATILE MEMORY DEVICE - According to one embodiment, a plurality of first wirings is disposed in first and second directions crossing each other and extends in a third direction perpendicular to the first and second directions. Second wirings extend in the second direction and are provided at a predetermined interval in the third direction of the first wirings. The first wiring includes a metal plug layer and a barrier metal film. A standard electrode potential of a metal that forms the barrier metal film is higher than a standard electrode potential of a metal that forms the variable resistive layer. | 2015-09-10 |
20150255716 | Non-volatile Resistive-Switching Memories - Non-volatile resistive-switching memories are described, including a memory element having a first electrode, a second electrode, a metal oxide between the first electrode and the second electrode. The metal oxide switches using bulk-mediated switching, has a bandgap greater than 4 electron volts (eV), has a set voltage for a set operation of at least one volt per one hundred angstroms of a thickness of the metal oxide, and has a leakage current density less than 40 amps per square centimeter (A/cm | 2015-09-10 |
20150255717 | VARIABLE RESISTIVE MEMORY DEVICE AND METHOD OF FABRICATING THE SAME AND METHOD OF DRIVING THE SAME - Provided are a variable resistive memory device, and methods of fabricating and driving the same. The variable resistive memory device includes a plurality of memory cells arranged in a first direction and in a second direction different from the first direction, each of the plurality of memory cells comprising a variable resistor and a selection device serially connected W the variable resistor. A common wiring is electrically connected to first ends of the plurality of memory cells to apply a common reference voltage, Each wiring line of a plurality of wiring lines is electrically connected to second ends of the plurality of memory cells arranged n the plurality of rows oriented in the first direction. A plurality of selection lines are respectively connected to the selection devices of the plurality of memory cells to select any one of the plurality of memory cells via the plurality of wiring lines. | 2015-09-10 |
20150255718 | RRAM CELL STRUCTURE WITH CONDUCTIVE ETCH-STOP LAYER - The present disclosure relates to a resistive random access memory (RRAM) device architecture, that includes a thin single layer of a conductive etch-stop layer between a lower metal interconnect and a bottom electrode of an RRAM cell. The conductive etch-stop layer provides simplicity in structure and the etch-selectivity of this layer provides protection to the underlying layers. The conductive etch stop layer can be etched using a dry or wet etch to land on the lower metal interconnect. In instances where the lower metal interconnect is copper, etching the conductive etch stop layer to expose the copper does not produce as much non-volatile copper etching by-products as in traditional methods. Compared to traditional methods, some embodiments of the disclosed techniques reduce the number of mask step and also reduce chemical mechanical polishing during the formation of the bottom electrode. | 2015-09-10 |
20150255719 | SALTS OF PHOSPHORUS OXIDE AS N-DOPANTS FOR ORGANIC ELECTRONICS - An organic electronic component contains a substrate, a first electrode, a second electrode and at least one electron transport layer between the first and second electrode. The electron transport layer is a salt-like derivative of a phosphorus oxo compound as n-dopant. | 2015-09-10 |
20150255720 | Compounds for Electronic Devices - The present invention relates to compounds which are suitable for use in electronic devices, preferably organic electroluminescent devices. | 2015-09-10 |
20150255721 | COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A compound is represented by Formula 1: | 2015-09-10 |
20150255722 | METHOD OF MANUFACTURING DISPLAY APPARATUS - A method of manufacturing a display apparatus includes: joining a first thin-film glass substrate onto a first carrier substrate; providing a touch pattern unit on a surface of the first thin-film glass substrate, which is opposite to a surface facing the first carrier substrate; separating the first thin-film glass substrate from the first carrier substrate; | 2015-09-10 |
20150255723 | COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A compound, an organic light-emitting device, and a flat panel display device, the compound being represented by Formula 1, below: | 2015-09-10 |
20150255724 | MATERIALS FOR ORGANIC ELECTROLUMINESCENT DEVICES - The present invention relates to an organic composition which comprises a conjugated polymer as hole-transport compound and a doping compound. The present invention furthermore relates to the use of the composition according to the invention in organic electroluminescent devices, in particular in the so-called buffer layer of such devices. The present invention also relates to a formulation which comprises the composition according to the invention and a solvent and to an organic electroluminescent device which comprises the composition according to the invention. | 2015-09-10 |
20150255725 | ORGANIC SEMICONDUCTORS - The invention relates to novel organic semiconducting oligomers or polymers containing alkylated dithieno[2,3-d:2′,3′-d′]-s-indaceno[1,2-b:5,6-b′]dithiophene units, methods for their preparation and educts or intermediates used therein, polymers, blends, mixtures and formulations containing them, the use of the oligomers, polymers, blends, mixtures and formulations as semiconductor in organic electronic (OE) devices, especially in organic photovoltaic (OPV) devices or organic photodetectors (OPD), and to OE, OPV and OPD devices comprising these oligomers, polymers, blends, mixtures or formulations. | 2015-09-10 |
20150255726 | NITROGEN-CONTAINING HETEROCYCLIC DERIVATIVE, ORGANIC ELECTROLUMINESCENCE ELEMENT MATERIAL USING SAME, AND ORGANIC ELECTROLUMINESCENCE ELEMENT AND ELECTRONIC DEVICE USING SAME - A nitrogen-containing heterocyclic derivative in which an indole structure is fused to a benzophenanthrene ring is a novel material useful as a material for organic electroluminescence devices for the production of organic electroluminescence devices and electronic equipment. | 2015-09-10 |
20150255727 | INDENO[1,2-b]PHENANTHRENE COMPOUND AND ORGANIC LIGHT EMITTING ELEMENT INCLUDING THE SAME - The present invention provides an indeno[1,2-b]phenanthrene compound having suppressed hole transport ability. The indeno[1,2-b]phenanthrene compound represented by the general formula [1] described in Claim | 2015-09-10 |
20150255728 | CARBAZOLE DERIVATIVE, LIGHT-EMITTING ELEMENT MATERIAL, LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE - A carbazole derivative represented by the general formula (1) is provided. In the formula, Ar | 2015-09-10 |
20150255729 | AROMATIC AMINE DERIVATIVE, AND ORGANIC ELECTROLUMINESCENT ELEMENT - Provided are an organic electroluminescence device that not only provides high efficiency but also has a long lifetime, and an aromatic amine derivative that realizes the device. The organic electroluminescence device includes an aromatic amine derivative, including at least one substituent A having dibenzofuran and at least one substituent B selected from groups each having dibenzofuran or carbazole, in a molecule thereof, in which the substituent A and the substituent B include groups different from each other, and the substituent A and the substituent B are bonded to the same nitrogen atom, or different nitrogen atoms, in the molecule. The molecules of the aromatic amine derivative hardly crystallize, which improves a yield in the production of the organic electroluminescence device. In the organic electroluminescence device, including an organic thin film layer formed of one or more layers including at least a light emitting layer, the organic thin film layer being interposed between a cathode and an anode, the aromatic amine derivative is contained in at least one layer, particularly a hole transport layer, in the organic thin film layer. | 2015-09-10 |
20150255730 | BIPHENYL DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE - A biphenyl derivative is provided, which is shown in formula (1): | 2015-09-10 |
20150255731 | COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - A compound is represented by Formula 1 or Formula 2, and an organic light-emitting device includes the same. | 2015-09-10 |
20150255732 | ARYLOXY-PHTHALOCYANINES OF GROUP IV METALS - The present disclosure relates to a compound comprising an aryloxy-phthalocyanine compound of group IV metals, a method for preparing said compound and an article of manufacture made therefrom. | 2015-09-10 |
20150255733 | ORGANOMETALLIC COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - An organometallic compound represented by Formula 1: | 2015-09-10 |
20150255734 | PHOSPHORESCENT MATERIALS - Phosphorescent materials and devices having high efficiency and stability, narrow spectrum, and improved processibility. | 2015-09-10 |
20150255735 | SOLAR CELL, AND METHOD FOR PRODUCING SAME - Provided are a solar cell a solar cell having high light absorbance and power conversion efficiency and a method for producing the solar cell. The solar cell includes a substrate, a first electrode disposed on the substrate, a photoactive layer disposed on the first electrode, and a second electrode disposed on the photoactive layer. The photoactive layer includes an electron acceptor and at least two electron donors. | 2015-09-10 |
20150255736 | COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - An organic light-emitting device including a first electrode, a second electrode and an organic layer disposed between the first electrode and the second electrode is provided | 2015-09-10 |
20150255737 | TRANSPARENT SILICONE RESIN COMPOSITION FOR NON VACUUM DEPOSITION AND BARRIER STACKS INCLUDING THE SAME - A barrier stack includes a decoupling layer comprising a siloxane polymer, and a barrier layer on the decoupling layer. The siloxane polymer is prepared from a solvent solution including a solvent, a silyl monomer and one or more silicone monomers. A method of forming the decoupling layer includes depositing (via a non-vacuum deposition technique) the solvent solution comprising the silyl monomer and the one or more silicone monomers on the substrate, and curing the curable resin composition. The siloxane polymer resulting from cure may be represented by Formula 2. | 2015-09-10 |
20150255738 | ORGANIC LIGHT-EMITTING DEVICES - Organic electronic devices comprising a covalently bonded organic/inorganic composite layer. The composite layer may be formed by the reaction of a metal alkoxide with a charge transport compound having one or more hydroxyl groups. Examples of metal alkoxides that can be used include vanadium alkoxides, molybdenum alkoxides, titanium alkoxides, or silicon alkoxides. This composite layer can be used for any of the various charge conducting layers in an organic electronic device, including the hole injection layer. | 2015-09-10 |
20150255739 | DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A display device includes: a central area having a display area on a substrate; and a peripheral area around the central area; a plurality of pads arranged along one direction in the central area; a plurality of insulating patterns adjacent the plurality of pads; and a slit between the plurality of insulating patterns in the peripheral area, wherein the slit is formed by removing at least a portion of an insulating material of the plurality of insulating patterns. | 2015-09-10 |
20150255740 | LIGHT-EMITTING DEVICE - A flexible device with fewer defects caused by a crack is provided. A flexible device with high productivity is also provided. Furthermore, a flexible device with less display failure even in a high temperature and high humidity environment is provided. A light-emitting device includes a first flexible substrate, a second flexible substrate, a buffer layer, a first crack inhibiting layer, and a light-emitting element. A first surface of the first flexible substrate faces a second surface of the second flexible substrate. The buffer layer and the first crack inhibiting layer are provided over the first surface of the first flexible substrate. The buffer layer overlaps with the first crack inhibiting layer. The light-emitting element is provided over the second surface of the second flexible substrate. | 2015-09-10 |
20150255741 | ORGANIC LIGHT EMITTING DIODE DEVICE - An organic light emitting diode device includes: an anode; a hole auxiliary layer on one side of the anode; an emission layer on one side of the hole auxiliary layer; and a cathode on one side of the emission layer; the hole auxiliary layer including: a hole injection layer; a hole transport layer; a first hole transport auxiliary layer between the hole injection layer and the hole transport layer and including a first p-type dopant and a first host having a first HOMO level; and a second hole transport auxiliary layer between the hole injection layer and the hole transport layer and including a second p-type dopant and a second host having a second HOMO level different from the first HOMO level. | 2015-09-10 |
20150255742 | LIGHT-EMITTING ELEMENT, LIGHT-EMITTING DEVICE, ELECTRONIC DEVICE, AND LIGHTING DEVICE - Provided is a light-emitting element having a light-emitting layer which contains at least a host material and a plurality of guest materials, where the host material has a lower T1 level than that of at least one of the plurality of guest materials. The emission of the one of the plurality of guest materials exhibits a multicomponent decay curve, and the lifetime thereof is less than or equal to 15 pec, preferably less than or equal to 10 pec, more preferably less than or equal to 5 pec, where the lifetime is defined as a time for the emission to decrease in intensity to 1/100 of its initial intensity. | 2015-09-10 |
20150255743 | DISPLAY DEVICE AND ELECTRONIC APPARATUS - A display device includes a first substrate including an organic layer forming region, and an organic layer non-forming region which is provided on an outer side of the organic layer forming region; and a first partitioning wall which is provided between the organic layer forming region and the organic layer non-forming region on the first substrate. | 2015-09-10 |
20150255744 | ORGANIC LIGHT EMITTING DIODE - An organic light emitting diode includes a first electrode including a first electrode including a reflective metal layer formed of a light-reflective metal, an upper transparent conductive layer positioned on the reflective metal layer, and a protective layer positioned on the upper transparent conductive layer; an organic emission layer positioned on the first electrode; and a second electrode positioned on the organic emission layer, wherein the upper transparent conductive layer is amorphous. | 2015-09-10 |
20150255745 | ORGANIC ELECTROLUMINESCENT DEVICE AND PREPARATION METHOD THEREOF - Disclosed are an organic electroluminescent device and a preparation method thereof. The organic electroluminescent device is a top-emitting organic electroluminescent device having a reversed structure, and the preparation method is: dissolving zinc oxide with acetic acid to obtain a zinc oxide solution with a concentration of 0.3 g/ml-0.6 g/ml, adding a phthalocyanine substance in a mass of 1%-10% of the mass of the zinc oxide to obtain a mixture, spin-coating the mixture on a glass substrate ( | 2015-09-10 |
20150255746 | METHOD FOR MANUFACTURING ORGANIC ELECTROLUMINESCENCE DEVICE - An organic electroluminescence device is manufactured using a roll-to-roll method. The manufacturing method includes the steps of forming a plurality of organic EL elements | 2015-09-10 |
20150255747 | ORGANIC LIGHT EMITTING DIODE DISPLAY AND MANUFACTURING METHOD THEREOF - An organic light emitting diode display and a manufacturing method thereof are provided. The organic light emitting diode display includes a first substrate, a second substrate, a plurality of organic light emitting diodes, and a frit layer. The organic light emitting diodes are disposed on the first substrate, and the frit layer adheres the first substrate and the second substrate to each other. The frit layer includes a first porous region having pores, a second porous region having pores, and a third porous region having pores. The number of the pores of the first porous region with a diameter of larger than or equal to 4 μm and smaller than or equal to 15 μm is greater than the number of the pores of the second porous region with the above-mentioned diameter range. | 2015-09-10 |
20150255748 | LOW PERMEATION GAS ULTRA-BARRIER WITH WET PASSIVATION LAYER - Barrier stacks according to embodiments of the present invention achieve good water vapor transmission rates with a reduced number of dyads (i.e., polymer layer/oxide layer couple). In some embodiments, the barrier stack includes one or more dyads comprising a first polymer decoupling layer and a second barrier layer on the first layer. A passivation layer is wet deposited on the second layer of at least one of the dyads. The passivation layer includes a wet coated and cured curable material that seals the localized defects in the underlying barrier layer, and the barrier stack including the passivation layer has a water vapor transmission rate that is lower than a water vapor transmission rate of a barrier stack not including the passivation layer. | 2015-09-10 |
20150255749 | GAS PERMEATION BARRIERS AND METHODS OF MAKING THE SAME - Barrier stacks according to embodiments of the present invention achieve good water vapor transmission rates with a reduced number of dyads (i.e., polymer layer/oxide layer couple). In some embodiments, the barrier stack includes one or more dyads comprising a first polymer decoupling layer and a second barrier layer on the first layer. An intervening tie layer is deposited between the first and second layers of at least one of the dyads. The intervening tie layer includes an inorganic oxide layer deposited between the polymer decoupling layer and barrier layer of the dyad. The barrier layer includes a silicon nitride layer deposited by an evaporative deposition technique such as chemical vapor deposition (CVD), for example plasma enhanced chemical vapor deposition (PECVD). The barrier stack including the intervening tie layer has a water vapor transmission rate that is lower than a water vapor transmission rate of a barrier stack not including the intervening tie layer. | 2015-09-10 |
20150255750 | Package Substrate, OLED Display Panel and Manufacturing Method Thereof, and Display Apparatus - A package substrate for packaging OLED devices, an OLED display panel and a manufacturing method thereof, and a display apparatus are provided. The package substrate comprises a first base substrate and a desiccant layer provided on the first base substrate, wherein the desiccant layer comprises desiccant particles and a glue layer for fixing the desiccant particles. The OLED display panel comprises the above package substrate and an array substrate, wherein the array substrate comprises OLED devices, and the array substrate and the package substrate are aligned and assembled into the OLED display panel. The method for manufacturing an OLED display panel comprises: forming a desiccant layer on a first base substrate to prepare a package substrate; forming OLED devices on a second base substrate to prepare an array substrate; aligning and assembling the array substrate and the package substrate. The display apparatus comprises the above OLED display panel. | 2015-09-10 |
20150255751 | OPTOELECTRONIC COMPONENT AND METHOD FOR PRODUCING AN OPTOELECTRONIC COMPONENT - An optoelectronic component may include a carrier, an organic functional layer structure, which is embodied on or above a carrier and is designed for taking up and/or providing electromagnetic radiation, an antireflection/getter layer structure arranged in the beam path of the organic functional layer structure and including getter material having a lower mean refractive index than the mean refractive index of the organic functional layer structure, and an antireflection layer, wherein material of the antireflection layer is arranged in the beam path of the organic functional layer structure at least partly between the organic functional layer structure and the getter material, and wherein the material of the antireflection layer arranged between the organic functional layer structure and the getter material has a mean refractive index which is greater than the refractive index of the getter material and/or comprises at least one scattering additive material distributed in a matrix. | 2015-09-10 |
20150255752 | Method for producing an optoelectronic component and optoelectronic component - Various embodiments may relate to a method for producing an optoelectronic component. The method may include increasing a refractive index of a substrate in at least one region at at least one predefined position in the substrate in such a way that the region having an increased refractive index extends as far as a surface of the substrate, and forming an electrode layer on or above the surface of the substrate at least partly above the region having an increased refractive index. | 2015-09-10 |
20150255753 | METHOD OF PRODUCING A TRANSPARENT DIFFUSIVE OLED SUBSTRATE - A method of producing a transparent diffusive OLED substrate includes lapping one face or both faces of a flat translucent glass substrate with an abrasive slurry, so as to obtain a flat glass substrate with at least one roughened surface having a roughness profile with an arithmetical mean deviation R | 2015-09-10 |
20150255754 | DISPLAY DEVICE - A display device includes a first substrate, a second substrate facing the first substrate, a first electrode on the first substrate, a pixel defining layer on the first substrate, the pixel defining layer including an opening corresponding to the first electrode, a light emission layer on the first electrode, a second electrode on the light emission layer, a filler between the first substrate and the second substrate, and scattering particles in the filler, the scattering particles having an average particle diameter that is less than a maximum height of the pixel defining layer. | 2015-09-10 |
20150255755 | ORGANIC LIGHT EMITTING DIODE AND DISPLAY DEVICE USING THE SAME - The present invention relates to an organic light emitting diode, comprising: a first electrode; a second electrode; an organic material layer which is interposed between the first electrode and the second electrode; and a light extraction layer which is disposed on the first electrode or under the second electrode, wherein the light extraction layer has a wave surface. The present invention also relates to a display device which comprises the above-mentioned organic light emitting diode. | 2015-09-10 |
20150255756 | APPARATUS AND METHOD FOR TAKING FLEXIBLE DISPLAY PANEL OFF, AND METHOD FOR MANUFACTURING THE SAME - An apparatus for taking a flexible display panel off includes a roller, a linear motion member, a fastening apparatus and a first driving apparatus. The roller has a circumferential surface which allows a first portion of the flexible display panel to be wound thereon. The linear motion member has a carrying surface. A second portion of the flexible display panel is in contact with the carrying surface. The fastening apparatus is used to fasten the flexible display panel onto the carrying surface of the linear motion member. The first driving apparatus is used to drive the linear motion member to move linearly relative to the circumferential surface, so that the first portion departs from the circumferential surface and moves onto the carrying surface along with the second portion. | 2015-09-10 |
20150255757 | Method For Depositing a Target Material onto a Organic Electrically Functional Material - The invention relates to a method for depositing a target material onto an organic electrically functional material. The method includes the steps of: providing a substrate with an organic electrically functional material, like an emissive electroluminescent layer; creating a vapor plume of target material by pulsed laser deposition; depositing a first layer of target material on the organic electrically functional material, while maintaining the maximum particle velocity of the deposited particles below a preset value; and depositing a second layer of target material on the first layer of target material, while the maximum particle velocity of the deposited particles is above the preset value. The invention also relates to an intermediate product and to an organic light emitting diode. | 2015-09-10 |
20150255758 | METHOD OF BONDING DISPLAY DEVICE - A method of bonding a display device is disclosed. In one aspect, the method comprises forming a seal portion between a substrate, on which an emission region is foamed, and an encapsulating part mounted facing the substrate, aligning positions of the substrate and the encapsulating part in a chamber, changing a vacuum state of the chamber to an atmospheric pressure state so as apply bonding pressure to the substrate and the encapsulating part, wherein the vacuum state and the atmospheric pressure state have different pressures, and applying energy to the seal portion so as to bond the substrate and the encapsulating part. | 2015-09-10 |
20150255759 | HYBRID BARRIER STACKS AND METHODS OF MAKING THE SAME - Barrier stacks according to embodiments of the present invention achieve good water vapor transmission rates with a reduced number of dyads (i.e., polymer layer/barrier layer couple). In some embodiments, the barrier stack includes one or more dyads comprising a first polymer decoupling layer and a hybrid barrier layer on the first layer. The hybrid barrier layer includes an inner oxide barrier layer and an outer silicon nitride barrier layer. The inner oxide barrier layer is deposited between the first layer and the outer silicon nitride layer of at least one of the dyads. The outer silicon nitride barrier layer is deposited by an evaporative deposition technique such as chemical vapor deposition (CVD), for example plasma enhanced chemical vapor deposition (PECVD). The barrier stack including the inner oxide barrier layer has a water vapor transmission rate that is lower than a water vapor transmission rate of a barrier stack not including the inner oxide barrier layer. | 2015-09-10 |
20150255760 | RECHARGEABLE BATTERY HAVING INSULATING MEMBER - A rechargeable battery includes an electrode assembly including first and second electrodes, a case having the electrode assembly embedded therein, a cap plate coupled to an opening of the case, and an insulating member between the electrode assembly and the case. The insulating member includes a first support frame and a second support frame that are spaced apart from each other and an insulating film attached to the first and second support frames. | 2015-09-10 |
20150255761 | PACKAGING MATERIAL FOR BATTERY - In a packaging material for a battery constituted by a laminate body having at least a base material layer, a bonding layer, a metal layer and a sealant layer in this order, the bonding layer satisfies at least two of the following properties (1) to (3). (1) The hardness is 20 to 115 MPa when an indenter is pressed into the bonding layer by 5 μm from the cross-section of the laminate body using a nano-indenter. (2) The peak temperature is 10 to 60° C. for the loss modulus peak that is acquired when a dynamic viscoelasticity is measured at a frequency of 1 Hz for the bonding layer. (3) I | 2015-09-10 |
20150255762 | BATTERY CELL COMPRISING A HOUSING COVERING PLATE HAVING A RAISED CENTRAL REGION - The invention relates to a battery cell, in particular a lithium-ion battery cell, wherein a cover plate ( | 2015-09-10 |
20150255763 | POWER SUPPLY DEVICE AND METHOD OF ASSEMBLING THE POWER SUPPLY DEVICE - A power supply device includes a main body defining a receiving cavity which has an opening, a battery and a metallic plate both disposed in the receiving cavity, a metallic ring mounted around the opening, and a cover disposed at the opening. The metallic ring is positioned between the cover and the main body and heated by the high-frequency heating for fusion of the cover and the main body to seal up the battery in the receiving cavity. The metallic plate is located between the battery and acting parts by the high-frequency heating to separate the energy of the high-frequency heating from the battery. The main body or the cover are provided with a connecting element of which one end is exposed in the receiving cavity to electrically connect the battery and the other end is exposed outside the power supply device to electrically connect an external electronic product. | 2015-09-10 |
20150255764 | BATTERY PACK FOR ELECTRIC VEHICLE - To provide a battery pack for an electric vehicle capable of enhancing the strength of the entire side wall of a tray, a battery pack for an electric vehicle includes: a tray | 2015-09-10 |
20150255765 | Supporting Element for a Housing of a Vehicle Traction Battery - The present invention relates to a supporting element for a housing for a vehicle traction battery, the vehicle traction battery being constructed of a number of power storage modules. The supporting element is constructed of a module supporting element and at least one closing element, which has a plate-shaped design, the module supporting element having a number of module fastening elements, to which the number of power storage modules are fastened. Furthermore, the module supporting element has at least one recess which is closed by the plate-shaped closing element. The present invention further relates to a process of producing a corresponding support element for a housing for a vehicle traction battery. | 2015-09-10 |
20150255766 | SEALED SECONDARY BATTERY - An object of the present invention is to safely discharge gases to the outside of a battery even when the gases are generated in a sealed secondary battery. In the sealed secondary battery according to the present invention, an electrode group ( | 2015-09-10 |
20150255767 | ION CONDUCTING HYBRID MEMBRANES - A device includes a membrane that is: (i) impermeable to oxygen, and (ii) insoluble in at least one polar solvent; and ion conducting particles in the membrane. At least some of the particles extend from a first side of the membrane to an opposed second side of the membrane. The thickness of the membrane is 15 μm to 100 μm. | 2015-09-10 |
20150255768 | LITHIUM-ION SECONDARY BATTERY SEPARATOR - A lithium-ion secondary battery separator resolves defects of a non-woven fabric separator which is not suitable for use in such a battery. The separator is thin but does not short-circuit and has excellent electrolyte retainability and rate characteristics. The separator includes a composite of a non-woven fabric having a basis weight of 2 to 20 g/m | 2015-09-10 |
20150255769 | FLEXIBLE ION CONDUCTIVE MEMBRANE FOR BATTERIES - In an improved lithium sulfur battery, an improvement comprises an effective Prussian blue dense membrane interposed between the anode and the cathode. | 2015-09-10 |
20150255770 | NONAQUEOUS ELECTROLYTE SECONDARY BATTERY - A nonaqueous electrolyte secondary battery includes an electrode body that has a positive electrode, a negative electrode, and a separator provided between the positive electrode and the negative electrode. A nonaqueous electrolyte is held at least in the separator. In at least a part of the separator, an amount of change in a thickness of the separator at a time of restraint at 10 MPa is 50% or more. | 2015-09-10 |
20150255771 | LITHIUM SECONDARY BATTERY - A lithium secondary battery includes a cathode, an anode, a separator interposed between the cathode and the anode, and a non-aqueous electrolyte solution obtained by dissolving lithium salt in a non-aqueous solvent. The separator includes a porous substrate having pores; and a porous coating layer located on at least one surface of the porous substrate and having inorganic particles and a binder polymer, the inorganic particles being connected and fixed to each other by means of the binder polymer, the porous coating layer having pores therein formed by interstitial volumes among the inorganic particles. The non-aqueous electrolyte solution has a viscosity of 1.4 cP or above at 25° C. This lithium secondary battery gives improved safety and excellent charging/discharging characteristics due to a low risk of leakage of a non-aqueous electrolyte solution and good wettability of separator with the solvent. | 2015-09-10 |
20150255772 | SEPARATOR FOR SECONDARY BATTERY ELECTRODE ASSEMBLY AND SECONDARY BATTERY INCLUDING THE SAME - A separator for a secondary battery electrode assembly is positioned between a cathode plate where a cathode terminal is protruded and an anode plate where an anode terminal is protruded and blocks a current flow between the cathode plate and the anode plate, and includes an extension portion which is extended so as to be overlapped with one or more terminals of the cathode terminal and the anode terminal. With a separator film for a secondary battery and a secondary battery including the same, it is possible to prevent a cathode terminal or an anode terminal from being brought into contact with an anode plate or a cathode plate, respectively, even if the cathode plate and the anode plate are slightly dislocated. | 2015-09-10 |
20150255773 | Backpack-Type Power Supply - A backpack-type power supply includes: a plurality of cell units ( | 2015-09-10 |
20150255774 | Modular Battery Connector Assembly - A battery cell stack connector assembly includes a plurality of busbar modules. Each of the busbar modules has a module frame with a first side with a first connector and a second side with a second connector. Each module frame defines a module axis that extends from the first side to the second side. Each of the busbar modules also includes a busbar attached to the module frame. The plurality of busbar modules are connected to form a connector frame that defines a connector axis that extends from a first assembly side to a second assembly side. The module axes of the plurality of busbar modules are aligned with the connector axis. Also, the first connectors and second connectors are adapted so that each of the plurality of module frames is mated with and attached to respective adjacent module frames. | 2015-09-10 |
20150255775 | STEPWISE ELECTRODE ASSEMBLY INCLUDING ONE-SIDED NEGATIVE ELECTRODE - An electrode assembly includes at least one positive electrode coated with a positive electrode active material on both surfaces of a positive electrode current collector and at least one negative electrode coated with a negative electrode active material on both surfaces of a negative electrode current collector are alternately stacked in a direction perpendicular to a plane by placing a separation film therebetween. The electrode assembly includes a stepped part formed by placing a second electrode which has a different pole and a different area from those of a first electrode on the first electrode. At least one of outermost electrodes located on both surfaces of the electrode assembly is a one-side coated negative electrode, which has a surface coated with the negative electrode active material, and another surface as a non-coated portion. The non-coated portion is arranged in order to face the outside of the electrode assembly. | 2015-09-10 |
20150255776 | Battery Pack System - An improved battery pack and system including such battery pack is disclosed. The battery pack includes a power control module positioned to allow for increased battery power or reduced battery pack size. | 2015-09-10 |
20150255777 | RECHARGEABLE BATTERY - A rechargeable battery having a decreased size by including a membrane of an external short-circuit part in a cap plate is provided. The rechargeable battery includes a case having an electrode assembly accommodated therein, a cap plate closing an opening of the case, first and second electrode terminals extending through the cap plate and electrically coupled to the electrode assembly, and an external short-circuit part coupled to an outer portion of the case for electrically disconnecting or short-circuiting the first and second electrode terminals from or to each other. The external short-circuit part includes a membrane coupled to an inner surface of the cap plate and electrically coupled to the second electrode terminal, and a connection plate electrically coupled to the first electrode terminal and spaced from the membrane. The membrane extends around an outer circumference of a short-circuit hole in the cap plate to cover the short-circuit hole. | 2015-09-10 |
20150255778 | POWDER SUPPLY DEVICE FOR SECONDARY BATTERY AND APPARATUS FOR MANUFACTURING ELECTRODE BODY - Provided is a powder supply device for a secondary battery which can always supply a fixed amount of powder with high accuracy without being influenced by a state of the powder. In addition, provided is an apparatus for manufacturing an electrode body, which includes the powder supply device and can efficiently manufacture an electrode body. The powder supply device includes a rotor which makes powder fall into an opening, and a mesh body which covers the lower end of the opening. Uneven portions or projecting portions are formed on the outer circumferential surface of the rotor. The rotor is rotatably supported in a storing portion. The gap is formed between the outer circumferential surface of the rotor and the inner surface of the storing portion so that they are spaced apart. The mesh body is arranged away from the outer circumferential surface of the rotor. | 2015-09-10 |
20150255779 | METHODS AND APPARATUSES FOR POLYMER FIBRILLIZATION UNDER ELECTRIC FIELD - A method of fibrillizing a fibrillizable binder component of an electrode film can include providing a negatively charged fibrillizable binder component, and applying an electric field upon the negatively charged binder component to fibrillize the negatively charged fibrillizable binder component. A system for fibrillizing a binder component of an electrode film can include a mixing container made of a material having an affinity to donate electron(s) to the binder component, and an actuator configured to apply a force upon the mixing container so as to contact the mixing container with the binder component and to move the mixing container and the binder component relative to each other within a speed and range of motion sufficient to create an electrostatic force on the binder component and fibrillize the binder component. | 2015-09-10 |
20150255780 | METHOD OF MANUFACTURING ELECTRODE FOR SECONDARY BATTERY AND HOT-GAS DRYING FURNACE - Provided are a method of manufacturing an electrode for a secondary battery which can properly maintain the temperature of a hot gas while requiring a smaller amount of hot gas, and a hot-gas drying furnace used for the method. A control device calculates an amount of decrease in temperature of a hot gas at a blowing position of a nozzle (first position) based on a temperature of the hot gas at second position situated downstream of the first position and a temperature of the hot gas at third position situated downstream of the second position. The control device adds the amount to a set temperature of the hot gas at the first position to calculate a modified set temperature. The control device adjusts an output of a heater depending on a difference between the modified set temperature and the temperature at the first position. | 2015-09-10 |
20150255781 | Electrode for Electrical Storage Element, and Nonaqueous Lithium Electrical Storage Element - Provided is a non-aqueous lithium-type electrical storage element having both high output and high capacity per volume. The non-aqueous lithium-type electrical storage element relevant to the present invention is a non-aqueous lithium-type electrical storage element having: an electrode body laminated with a positive electrode having a positive electrode active material layer including a positive electrode active material, and a positive electrode current collector, a separator, and a negative electrode having a negative electrode active material layer including a negative electrode active material, and a negative electrode current collector; a non-aqueous electrolytic solution including a lithium ion; and an outer casing. | 2015-09-10 |
20150255782 | SEPARATION MEMBRANE FOR LITHIUM SULFUR BATTERIES - Disclosed is a material which enhances stability for lithium in all the batteries, which use the lithium metal as an electrode material, by using and applying a lithium-substituted perfluoro sulfonic acid (PFSA) material in the form of a membrane or a powder to a lithium anode. Methods of manufacturing the material are also enclosed. | 2015-09-10 |
20150255783 | Method for Forming an Electrical Connection to a Conductive Fibre Electrode and Electrode So Formed - A method for forming an electrical connection to a microscale electrically conductive fibre material electrode element, such as a carbon fibre electrode element of a Pb-acid battery, comprises pressure impregnating into the fibre material an electrically conductive lug material, such as molten Pb metal, to surround and/or penetrate fibres and form an electrical connection to the fibre material and provide a lug for external connection of the electrode element. Other methods of forming a lug for external connection are also disclosed. | 2015-09-10 |
20150255784 | MIXED CATHODE MATERIAL WITH HIGH ENERGY DENSITY - The present invention relates to an electrochemical cell comprising an anode of a Group IA metal and a cathode of a composite material prepared from a first active cathode material of a transition metal phosphate mixed or added to a second active cathode material of a carbonaceous material. The cathode material of the present invention provides increased rate pulse performance compared to carbon monofluoride cathode material. In addition, the cathode material of the present invention is chemically stable which makes it particularly useful for applications that require increased rate capability in extreme environmental conditions such as those found in oil and gas exploration. | 2015-09-10 |
20150255785 | ANODE MATERIALS FOR LITHIUM ION BATTERIES - An electrochemical device includes a composite material of general Formula (1−x)J-(x)Q wherein: J is a metal carbon alloy of formula Sn | 2015-09-10 |
20150255786 | POSITIVE ELECTRODE FOR NONAQUEOUS ELECTROLYTE SECONDARY BATTERIES, AND NONAQUEOUS ELECTROLYTE SECONDARY BATTERY - Provided is a positive electrode for nonaqueous electrolyte secondary batteries including a positive electrode mixture layer formed of a positive electrode mixture paste containing a positive electrode active material. The positive electrode active material has a particle diameter of 2 μm or more and less than 7 μm. The positive electrode mixture layer includes a first mixture layer in which a maximum diameter of pores formed between particles of the positive electrode active material is more than 1.0 μm and 5.0 μm or less, and a second mixture layer in which a maximum diameter of the pores is 1.0 μm or less. The second mixture layer is arranged closer to the current collector than the first mixture layer. A ratio of a thickness of the first mixture layer to a thickness of the second mixture layer is more than 0.1 and 1.0 or less. | 2015-09-10 |
20150255787 | CARBON-COATED ACTIVE MATERIAL COMPOSITE AND LITHIUM ION BATTERY - A carbon-coated active material composite, an electrode and a lithium ion battery capable of improving electron conductivity and lithium ion conductivity when an electrode active material having a carbonaceous film formed on the surface is used as an electrode material are provided. In the carbon-coated active material composite, charge migration of lithium ions occurs at an interface between a carbonaceous film and an electrode active material, an activation energy of an insertion and removal reaction of lithium ions at an interface between the carbon-coated active material composite and an electrolytic solution is 45 kJ/mol to 85 kJ/mol, a value of a carbon supported amount to a specific surface area of particles of an electrode active material is 0.01 to 0.5, and the activation energy is measured using an electrolyte solution obtained by mixing ethylene carbonate and diethyl carbonate at a 1:1 ratio. | 2015-09-10 |
20150255788 | NEGATIVE ELECTRODE FOR SECONDARY BATTERY AND SECONDARY BATTERY - An object of the present invention is to provide a secondary battery capable of rapid charging and discharging at a high current, in which, even when a titanium-containing oxide is used as a negative electrode active material, the internal resistance and impedance of the secondary battery are low without adding a material, which does not contribute to electrical capacity, such as a conductive assistant to a negative electrode active material layer in a large amount. Provided is a negative electrode for a secondary battery including: metal foil; and a negative electrode active material layer that is formed on a single surface or both surfaces of the metal foil and includes a titanium-containing oxide as a negative electrode active material, in which a film containing a conductive material is formed between the metal foil and the negative electrode active material layer. | 2015-09-10 |
20150255789 | Modified Lithium Ion Battery Anode Material Having High Energy Density, and Manufacturing Method Thereof - The present invention relates to a modified lithium ion battery anode material having high energy density, and a manufacturing process thereof, the anode material comprising, from inside to outside, a core, a transition layer and a shell layer. The anode material of the present invention has the advantages of high energy density, low surface activity, good storage performance, and a simple manufacturing process, and is suitable for large scale application. | 2015-09-10 |
20150255790 | LITHIUM TITANATE CRYSTAL STRUCTURE, COMPOSITE OF LITHIUM TITANATE CRYSTAL STRUCTURE AND CARBON, METHOD OF PRODUCTION THEREOF, AND ELECTRODE AND ELECTROCHEMICAL ELEMENT EMPLOYING SAID COMPOSITE - Highly dispersed lithium titanate crystal structures having a thickness of few atomic layers level and the two-dimensional surface in a plate form are supported on carbon nanofiber (CNF). The lithium titanate crystal structure precursors and CNF that supports these are prepared by a mechanochemical reaction that applies sheer stress and centrifugal force to a reactant in a rotating reactor. The mass ratio between the lithium titanate crystal structure and carbon nanofiber is preferably between 75:25 and 85:15. The carbon nanofiber preferably has an external diameter of 10-30 nm and an external specific surface area of 150-350 cm | 2015-09-10 |
20150255791 | Spinel-Type Lithium-Manganese Composite Oxide - Provided is a novel spinel-type lithium-manganese composite oxide, allowing gas generation amount to be limited for a gas generated via a reaction with an electrolytic solution. Proposed is a spinel-type lithium-manganese composite oxide, wherein, when the spinel-type lithium-manganese composite oxide is placed in an ion-exchanged water at 20° C., stirred for 10 minutes, then, left to stand undisturbed for 2 minutes, separated into a supernatant and a precipitate and recovered, with respect to the “16d-site-to-32e-site inter-atomic distance (100%)” of the spinel-type lithium-manganese composite oxide contained in the precipitate measured by the Rietveld method using the fundamental method, proportionally, the “16d-site-to-32e-site inter-atomic distance” of the spinel-type lithium-manganese composite oxide contained in the supernatant is less than 101.5%. | 2015-09-10 |
20150255792 | RECHARGEABLE ZINC ION BATTERY BASED ON CARBON CATHODE - The present invention discloses a rechargeable zinc ion battery, in which anodic zinc will be electrochemically dissolved as Zn | 2015-09-10 |
20150255793 | CARBON MATERIAL FOR NEGATIVE ELECTRODE FOR LITHIUM ION SECONDARY BATTERY, MANUFACTURING PROCESS THEREFOR AND USE THEREOF - A carbon material for negative electrodes in lithium ion secondary battery, wherein a specific surface area is not less than 1.5 m | 2015-09-10 |
20150255794 | LITHIUM SECONDARY BATTERY - Disclosed is a lithium secondary battery including (i) a cathode active material including a lithium metal phosphate according to Formula 1 below; and (ii) an anode active material including amorphous carbon, | 2015-09-10 |
20150255795 | LITHIUM ION SECONDARY BATTERY - The present invention aims to obtain a lithium ion secondary battery having excellent high-rate discharge characteristics. A lithium ion secondary battery includes a positive electrode, a negative electrode, and an electrolyte solution and is characterized in that the positive electrode uses a compound expressed by an expression as a positive electrode active material, and the positive electrode has an electrode density of 1.8 to 2.9 g/cm | 2015-09-10 |