50th week of 2015 patent applcation highlights part 63 |
Patent application number | Title | Published |
20150357521 | NITRIDE SEMICONDUCTOR STRUCTURE, ELECTRONIC DEVICE INCLUDING THE NITRIDE SEMICONDUCTOR STRUCTURE, LIGHT-EMITTING DEVICE INCLUDING THE NITRIDE SEMICONDUCTOR STRUCTURE, AND METHOD FOR PRODUCING THE NITRIDE SEMICONDUCTOR STRUCTURE - A nitride semiconductor structure includes a nitride semiconductor layer having a principal plane and including a nitride semiconductor. The normal to the principal plane of the nitride semiconductor layer is inclined at 5 degrees or more and 17 degrees or less with respect to the [11-22] axis of the nitride semiconductor constituting the nitride semiconductor layer in the direction of the +c-axis of the nitride semiconductor. The nitride semiconductor structure may further include a substrate having a principal plane which supports the nitride semiconductor layer on the principal plane. The substrate may include any one selected from the group consisting of a nitride semiconductor, sapphire, and Si. | 2015-12-10 |
20150357522 | NITRIDE SEMICONDUCTOR LIGHT-EMITTING DIODE - In a nitride semiconductor light-emitting diode having a shape of an isosceles triangle in a top view, either Group Aa consisting of the following two mathematical formulae (Ia) and (IIa) or Group Ab consisting of the following two mathematical formulae (Ib) and (IIb) is satisfied: | 2015-12-10 |
20150357523 | SEMICONDUCTOR LIGHT EMITTING ELEMENT AND LIGHT EMITTING DEVICE - A semiconductor light emitting element includes a first substrate, a stacked body, an electrode, and a conductive layer. The first substrate has a first face and a first side face. The first side face intersects the first face. The first substrate includes a plurality of conductive portions and a plurality of insulating portions arranged alternately. The stacked body is aligned with the first substrate. The stacked body includes first and second semiconductor layers and a light emitting layer. The electrode is electrically connected to the first semiconductor layer. The conductive layer is electrically connected to at least one of the conductive portions and the second semiconductor layer. At least one of the insulating portions is disposed between the first side face and a portion of the conductive layer nearest to the first side face. | 2015-12-10 |
20150357524 | LIGHT-EMITTING ELEMENT - A light-emitting element comprises a light-emitting semiconductor stack comprising a first semiconductor layer, a second semiconductor layer on the first semiconductor layer, and a light-emitting layer between the first semiconductor layer and the second semiconductor layer; a first electrode comprising an contact area and an extension electrically connected to the first semiconductor layer, wherein the extension is connected to the contact area; a second electrode on the second semiconductor layer; and a first conductive part and a second conductive part formed on the light-emitting semiconductor stack and respectively electrically connected to the first electrode and the second electrode, wherein the extension is formed beyond a projected area of the second conductive part and not covered by the first conductive part, and the contact area is covered by the first conductive part. | 2015-12-10 |
20150357525 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - To suppress or prevent erosion (decrease in film thickness), water absorption, or cracking of a DBR film surface in washing or etching treatment in a downstream process. The DBR film structure of a DBR film | 2015-12-10 |
20150357526 | ELECTROPHOTOGRAPHIC DEPOSITION OF UNPACKAGED SEMICONDUCTOR DEVICE - Described herein are techniques related a precision deposition of unpackaged semiconductor devices (“dies”) onto a substrate. This Abstract is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. | 2015-12-10 |
20150357527 | METHOD FOR MANUFACTURING LIGHT-EMITTING DEVICE, AND LIGHT-EMITTING DEVICE - A method for manufacturing a light-emitting device, the method comprising: a frame formation step of forming a frame such that a height from a surface of a terminal to which a wire is connected to an upper rim of the frame is smaller than a height from a top surface of a light-emitting element to the upper rim of the frame; a bump formation step of forming a bump on an electrode of the light-emitting element to which the wire is connected; a first bonding step of bonding, first, one end of the wire to the terminal; a second bonding step of bonding, subsequently, the other end of the wire to the bump; and a sealing step of sealing the light-emitting element by filling a sealing material inside the frame. | 2015-12-10 |
20150357528 | LIGHT EMITTING DEVICE - A blue-light emitting device, or a pseudo-white-light emitting device, including an LED light source that includes, as a light emission component, blue light having a wavelength of from 420 to 490 nm. A color-renderability improvement member including a complex fluoride fluorophore that absorbs blue light and emits red light and that is represented by A | 2015-12-10 |
20150357529 | LIGHT-EMITTING DEVICE - In a light-emitting device, a 50%-area average diameter of primary particles of a Eu-activated β SiAlON fluorescent material is 10 μm or more, a scattering probability of scattering materials at a peak wavelength of excitation light emitted from an excitation light source is 0.1 mm | 2015-12-10 |
20150357530 | METHOD FOR PRODUCING A PLURALITY OF OPTOELECTRONIC COMPONENTS AND OPTOELECTRONIC COMPONENT - The invention relates to a method for producing a plurality of optoelectronic components, comprising the following steps: providing an auxiliary support wafer ( | 2015-12-10 |
20150357531 | LIGHT EMITTING DEVICE - A light emitting device is provided. The light emitting device includes a blue light emitting diode (LED); and phosphors including first to third phosphors, wherein the first phosphor is excited by light emitted from the blue LED, emits light having a main wavelength of about 495 nm to about 510 nm, and includes BaSi | 2015-12-10 |
20150357532 | LIGHT EMITTING DEVICE - This light emitting device is provided with: a light emitting element which emits excitation light; and a far-red phosphor which is excited by the light of the light emitting element and emits light that has a peak wavelength within the range of 700-800 nm. The far-red phosphor has a median diameter within the range of 1-20 μm. | 2015-12-10 |
20150357533 | ENGINEERED-PHOSPHOR LED PACKAGES AND RELATED METHODS - In accordance with certain embodiments, regions of spatially varying wavelength-conversion particle concentration are formed over light-emitting dies. | 2015-12-10 |
20150357534 | Atomic Layer Deposition (ALD) of TiO2 using (Tetrakis(dimethylamino)titanium) TDMAT as an Encapsulation and/or Barrier Layer for ALD PbS - A method of encapsulating PbS quantum dots is provided that includes depositing, using atomic layer deposition (ALD), a first layer of TiO | 2015-12-10 |
20150357535 | LIGHT-EMITTING DEVICE - A light-emitting device includes a substrate, a first light-emitting element mounted on the substrate, an annular transparent dam formed on the substrate so as to surround the first light-emitting element, a second light-emitting element that is mounted on the substrate so as to be embedded in an interior of the dam and that has a shorter peak emission wavelength than that of the first light-emitting element, and a sealing material filled inside the dam so as to seal the first light-emitting element. | 2015-12-10 |
20150357536 | REFLECTING RESIN SHEET, LIGHT EMITTING DIODE DEVICE AND PRODUCING METHOD THEREOF - A reflecting resin sheet provides a reflecting resin layer at the side of a light emitting diode element. The reflecting resin sheet includes a release substrate and the reflecting resin layer provided on one surface in a thickness direction of the release substrate. The reflecting resin layer is formed corresponding to the light emitting diode element so as to be capable of being in close contact with the light emitting diode element. | 2015-12-10 |
20150357537 | SUBSTRATE STRUCTURE APPLICABLE TO VERTICAL LIGHT EMITTING ELEMENT AND VERTICAL LIGHT EMITTING ELEMENT THEREOF - The present invention discloses a substrate structure applicable to a vertical light emitting element and a vertical light emitting element thereof. The substrate structure comprises a transparent substrate and a reflective layer, and the reflective layer is used to improve a focus of a yellow light manufacturing process. The technique is applicable to PSS substrate and the substrate structure is used to produce the vertical light emitting element to increase the light emitting efficiency. | 2015-12-10 |
20150357538 | LED PACKAGE IMPROVED STRUCTURE AND FABRICATING METHOD THEREOF - A LED (Light-Emitting Diode) package structure is provided. The LED package improved structure includes a base, a plurality of metallic nanoparticles and a LED unit. The base has an accommodating space, wherein the accommodating space has a bottom surface and at least one side surface surrounding the bottom surface. The metallic nanoparticles cover the bottom surface and/or the side surface. The LED unit is disposed in the accommodating spare, in which light emitted from the LED unit is reflected or scattered by the metallic nanoparticles, each of the metallic nanoparticles has a diameter smaller than 10 nm and is electrically isolated. | 2015-12-10 |
20150357539 | VERTICAL NITRIDE SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SAME - Disclosed is a vertical nitride semiconductor device including a conductive substrate; a semiconductor layer bonded to the conductive substrate via a second electrode; a metal layer formed on the conductive substrate; a first electrode formed on the semiconductor layer; and a bonding layer formed between the conductive substrate and the second electrode. The conductive substrate has a flange part, which extends from a side surface of the conductive substrate, on a side of the other front surface thereof. The flange part is formed in a manner in which the conductive substrate and the semiconductor layer are bonded together and then a remaining part of the conductive substrate is divided, the remaining part being formed by cutting off the semiconductor layer and part of the conductive substrate in a thickness direction so as to expose a side surface of the semiconductor layer and the side surface of the conductive substrate. | 2015-12-10 |
20150357540 | HEAT ENGINE AND METHOD FOR HARVESTING THERMAL ENERGY - In the present disclosure, energy harvesters based on quantum confinement structures, such as resonant quantum wells and/or quantum dots, are described. Also disclosed are methods of harvesting energy utilizing the described energy harvester and methods of manufacturing energy harvesters. Energy harvesting is the process by which energy is taken from the environment and transformed to provide power for electronics. | 2015-12-10 |
20150357541 | COMPLIANT INTERFACIAL LAYERS IN THERMOELECTRIC DEVICES - A thermoelectric power generation device is disclosed using one or more mechanically compliant and thermally and electrically conductive layers at the thermoelectric material interfaces to accommodate high temperature differentials and stresses induced thereby. The compliant material may be metal foam or metal graphite composite (e.g. using nickel) and is particularly beneficial in high temperature thermoelectric generators employing Zintl thermoelectric materials. The compliant material may be disposed between the thermoelectric segments of the device or between a thermoelectric segment and the hot or cold side interconnect of the device. | 2015-12-10 |
20150357542 | ASSEMBLY COMPRISING A THERMOELECTRIC ELEMENT AND A MEANS FOR ELECTRICALLY CONNECTING SAID THERMOELECTRIC ELEMENT, MODULE AND THERMOELECTRIC DEVICE COMPRISING SUCH AN ASSEMBLY - An assembly of at least one thermoelectric element capable of generating an electric current under the effect of a temperature gradient exerted between two of its sides, referred to as the contact sides, and an electrical connection means is disclosed. The assembly includes a first deformable element electrically connecting the electrical connection means to the thermoelectric element, the first element including a first side linked to the electrical connection means and a second side linked to the thermoelectric element, the first side being deformable independently from the second side and vice versa, the assembly including a second deformable element forming a heat bridge between the first and second sides of the first element. A thermoelectric module including such an assembly and a thermoelectric device including such a module are also disclosed. | 2015-12-10 |
20150357543 | THERMOELECTRIC CONVERSION ELEMENT AND THERMOELECTRIC CONVERSION MODULE - In order to provide a thermoelectric conversion element which has a high Seebeck coefficient, a low thermal conductivity, and a high performance, even if the material system that has a low environmental load and can reduce the cost is used, the thermoelectric conversion element in which lattice points are classified into two or more kinds (A site and B site), lattices of which the kinds are different are connected to each other, the numbers of lattices of which the kinds are different are different (A site: 2, and B site: 1), and a lattice structure is configured by arranging nanoparticles or semiconductor quantum dots, includes areas of which conductivity types are different. | 2015-12-10 |
20150357544 | Flow Control Device To Be Used In A Thermoelectric Generator And A Thermoelectric Generator Comprising Such A Device - The invention relates to a flow control device intended to be used in a thermoelectric generator ( | 2015-12-10 |
20150357545 | SOLAR POWER GENERATION SYSTEM - A solar power generation system according to the present invention comprises heat pipes which are arranged radially on the outer peripheral surface of an absorber to increase heat transfer effectiveness between the absorber and the heat pipes, thereby improving heat transfer efficiency. Also, the solar power generation system has the advantage of operating the system more stably and efficiently even in suddenly changing weather conditions, due to the improved heat transfer efficiency and capability to store heat for a specific amount of time. In addition, when the heat pipes are extrapolated onto the absorber, heat can be transferred more effectively by increasing contact surface area with between the absorber and the heat pipes. Furthermore, heat can be transferred more effectively by increasing the contact surface area by coupling the heat pipes to a heat exchange portion through a block-coupling technique. | 2015-12-10 |
20150357546 | Thermoelectric Module And Device, In Particular Designed To Generate An Electric Current In A Motor Vehicle - The invention relates to a thermoelectric module comprising at least one annular thermoelectric element ( | 2015-12-10 |
20150357547 | Thermoelectric Device, A Thermoelectric Module Comprising Such A Thermoelectric Device And A Method For Producing Such A Thermoelectric Device - The invention relates to a thermoelectric device comprising at least two thermoelectric elements ( | 2015-12-10 |
20150357548 | METHOD FOR FORMING A THERMOELECTRIC FILM HAVING A MICRO GROOVE - A method for forming a thermoelectric film having a micro groove includes the following steps: A) forming a plurality of parallel sacrificing wires by electrospinning, a diameter of each sacrificing wire being 100-500 nm; B) coating a thermoelectric film having a thickness of 80-200 nm on a part of a surface of each sacrificing wire; and C) removing the sacrificing wires from the thermoelectric films and thus obtaining the thermoelectric films each having the micro groove, a radio side of each thermoelectric film being open to the surroundings. The thermoelectric films finally prepared can have higher size uniformity without the disadvantage of catalyst residual. Further, the thermoelectric films each have a size smaller than the mean free path of phonons in one dimension, and thus the thermoelectric properties of the thermoelectric films can be improved. | 2015-12-10 |
20150357549 | Rapid Solid-State Reaction of Oxides with Ultraviolet Radiation - The present invention relates to a method for solid-state synthesis of ceramic materials, in particular of oxide materials or cuprates, comprising or consisting of the step of providing starting material in amounts effective to produce the ceramic material and, thereafter, applying a treatment to said material by use of a solid-state reaction therein, said reaction being performed by irradiating said material from at least one light source with ultraviolet light. The present invention also relates to methods for producing thin films and to a use of the method for production of high-temperature superconductors. | 2015-12-10 |
20150357550 | SUPERCONDUCTING DEVICE WITH AT LEAST ONE ENCLOSURE - Some embodiments are directed to a device including multiple substrates comprising one or more troughs. The substrates are disposed such that the one or more troughs form at least one enclosure. At least one superconducting layer covers at least a portion of the at least one enclosure. Other embodiments are directed to a method for manufacturing a superconducting device. The method includes acts of forming at least one trough in at least a first substrate; covering at least a portion of the first substrate with a superconducting material; covering at least a portion of a second substrate with the superconducting material; and bonding the first substrate and the second substrate to form at least one enclosure comprising the at least one trough and the superconducting material. | 2015-12-10 |
20150357551 | SURFACE ACOUSTIC WAVE SENSOR - A surface acoustic wave (SAW) sensor includes a surface acoustic wave material and a comb-teeth electrode. The surface acoustic wave material is to be arranged at a place where the surface acoustic wave material is distorted by physical quantity such as stress. The comb-teeth electrode is arranged on the surface of the surface acoustic wave material to excite a surface acoustic wave to the surface acoustic wave material. The surface acoustic wave material has a sapphire board and a ScAlN film arranged on a surface of the sapphire board. | 2015-12-10 |
20150357552 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, LIQUID EJECTING HEAD, LIQUID EJECTING APPARATUS, AND ULTRASONIC MEASURING APPARATUS - A piezoelectric material is expressed as a mixed crystal including a complex oxide having a perovskite structure and a rhombohedral structure and a complex oxide having a perovskite structure and a tetragonal structure, and the molar ratio of the complex oxide having a rhombohedral structure to the complex oxide having a tetragonal structure (rhombohedral crystal/tetragonal crystal) is 0.54 to less than 1.20. | 2015-12-10 |
20150357553 | PIEZOELECTRIC MATERIAL, PIEZOELECTRIC ELEMENT, LIQUID EJECTING HEAD, LIQUID EJECTING APPARATUS, AND ULTRASONIC MEASURING APPARATUS - A piezoelectric material is expressed as a mixed crystal including a first component formed of a complex oxide having a perovskite structure and a rhombohedral structure and containing Bi in an A-site and Fe in a B-site, a second component formed of a complex oxide having a perovskite structure and a tetragonal structure and containing Ba in an A-site and Ti in a B-site, and a third component formed of a complex oxide having a perovskite structure and a tetragonal structure and containing Bi and K in an A-site and Ti in a B-site. | 2015-12-10 |
20150357554 | METHOD FOR PRODUCING A MULTILAYER DIELECTRIC POLYURETHANE FILM SYSTEM - The present invention relates to a method for producing a multilayer dielectric polyurethane film system comprising the following method steps: I) producing a mixture comprising a) a compound containing isocyanate groups with an isocyanate group content of >10% by weight and ≦50% by weight, b) a compound containing isocyanate reactive groups with an OH number of ≧20 and ≦150, wherein the sum of the number average functionality of isocyanate groups and of isocyanate reactive groups in compounds a) and b) is ≧2.6 and ≦6, II) applying the mixture immediately after it has been produced to a substrate in the form of a wet film, III) curing said wet film while forming the polyurethane film and IV) applying an electrode layer on the almost completely dried film, V) repeating steps I)-IV) to generate a multilayer system. The invention further relates to a multilayer dielectric polyurethane film system and an electromechanical transducer. | 2015-12-10 |
20150357555 | PIEZOELECTRIC THIN FILM AND METHOD FOR MANUFACTURING THE SAME, AND PIEZOELECTRIC ELEMENT - A piezoelectric thin film comprising aluminum nitride containing magnesium and hafnium, wherein a content of the hafnium based on 100 atomic % of the magnesium is 8 atomic % or more and less than 100 atomic %, and a total content of the magnesium and hafnium based on a sum of a content of the magnesium, hafnium, and aluminum is in a range of 47 atomic % or less. | 2015-12-10 |
20150357556 | METHOD AND SYSTEM FOR PROVIDING MAGNETIC LAYERS HAVING INSERTION LAYERS FOR USE IN SPIN TRANSFER TORQUE MEMORIES - A method and system for providing a magnetic junction usable in a magnetic device are described. The magnetic junction includes a pinned layer, a nonmagnetic spacer layer, and a free layer. The nonmagnetic spacer layer is between the pinned layer and the free layer. The magnetic junction is configured such that the free layer is switchable between a plurality of stable magnetic states when a write current is passed through the magnetic junction. At least one of the pinned layer and the free layer includes a magnetic substructure. The magnetic substructure includes at least two magnetic layers interleaved with at least one insertion layer. Each of the at least one insertion layer includes at least one of Bi, W, I, Zn, Nb, Ag, Cd, Hf, Os, Mo, Ca, Hg, Sc, Y, Sr, Mg, Ti, Ba, K, Na, Rb, Pb, and Zr. The at least two magnetic layers are magnetically coupled. | 2015-12-10 |
20150357557 | ELECTRONIC DEVICE - This technology provides an electronic device. An electronic device in accordance with an implementation of this document includes semiconductor memory, and the semiconductor memory includes a first magnetic layer having a variable magnetization direction; a second magnetic layer having a pinned magnetization direction; and a tunnel barrier layer interposed between the first magnetic layer and the second magnetic layer, wherein the second magnetic layer includes a ferromagnetic material with molybdenum (Mo) added thereto. | 2015-12-10 |
20150357558 | MAGNETIC STRUCTURES, METHODS OF FORMING THE SAME AND MEMORY DEVICES INCLUDING A MAGNETIC STRUCTURE - Magnetic structures, methods of forming the same, and memory devices including a magnetic structure, include a magnetic layer, and a stress-inducing layer on a first surface of the magnetic layer, a non-magnetic layer on a second surface of the magnetic layer. The stress-inducing layer is configured to induce a compressive stress in the magnetic layer. The magnetic layer has a lattice structure compressively strained due to the stress-inducing layer. | 2015-12-10 |
20150357559 | TOP ELECTRODE COUPLING IN A MAGNETORESISTIVE DEVICE USING AN ETCH STOP LAYER - A layer of silicon nitride above the bottom electrode and on the sidewalls of the magnetoresistive stack serves as an insulator and an etch stop during manufacturing of a magnetoresistive device. Non-selective chemical mechanical polishing removes any silicon nitride overlying a top electrode for the device along with silicon dioxide used for encapsulation. Later etching operations corresponding to formation of a via to reach the top electrode use selective etching chemistries that remove silicon dioxide to access the top electrode, but do not remove silicon nitride. Thus, the silicon nitride acts as an etch stop, and, in the resulting device, provides an insulating layer that prevents unwanted short circuits between the via and the bottom electrode and between the via and the sidewalls of the magnetoresistive device stack. | 2015-12-10 |
20150357560 | REDUCING SWITCHING VARIATION IN MAGNETORESISTIVE DEVICES - The magnetic characteristics of a magnetoresistive device are improved by rendering magnetic debris non-magnetic during processing operations. Further improvement is realized by annealing the partially- or fully-formed device in the presence of a magnetic field in order to eliminate or stabilize magnetic micro-pinning sites or other magnetic abnormalities within the magnetoresistive stack for the device. Such improvement in magnetic characteristics decreases deviation in switching characteristics in arrays of such magnetoresistive devices such as those present in MRAMs. | 2015-12-10 |
20150357561 | INTEGRATED CIRCUITS WITH HALL EFFECT SENSORS AND METHODS FOR PRODUCING SUCH INTEGRATED CIRCUITS - Integrated circuits with a Hall effect sensor and methods for fabricating such integrated circuits are provided. The method includes forming a buried plate layer within a substrate and overlying a substrate base, where the buried plate layer is doped with an “N” type dopant. A cover insulating layer if formed overlying the buried plate layer, and a plurality of contact points are formed adjacent to the cover insulating layer. | 2015-12-10 |
20150357562 | SEMICONDUCTOR STRUCTURE, RESISTIVE RANDOM ACCESS MEMORY UNIT STRUCTURE, AND MANUFACTURING METHOD OF THE SEMICONDUCTOR STRUCTURE - A semiconductor structure, a resistive random access memory unit structure, and a manufacturing method of the semiconductor structure are provided. The semiconductor structure includes an insulating structure, a stop layer, a metal oxide layer, a resistance structure, and an electrode material layer. The insulating structure has a via, and the stop layer is formed in the via. The metal oxide layer is formed on the stop layer. The resistance structure is formed at a bottom of an outer wall of the metal oxide layer. The electrode material layer is formed on the metal oxide layer. | 2015-12-10 |
20150357563 | METHOD FOR FABRICATING A PHASE-CHANGE MEMORY CELL - A method for fabricating a phase-change memory cell is described. The method includes forming a dielectric layer ( | 2015-12-10 |
20150357564 | Phase Change Memory Cells - A phase change memory cell has first and second electrodes having phase change material there-between. The phase change memory cell is devoid of heater material as part of either of the first and second electrodes and being devoid of heater material between either of the first and second electrodes and the phase change material. A method of forming a memory cell having first and second electrodes having phase change material there-between includes lining elevationally inner sidewalls of an opening with conductive material to comprise the first electrode of the memory cell. Elevationally outer sidewalls of the opening are lined with dielectric material. Phase change material is formed in the opening laterally inward of and electrically coupled to the conductive material in the opening. Conductive second electrode material is formed that is electrically coupled to the phase change material. Other implementations are disclosed. | 2015-12-10 |
20150357565 | MEMORY CELLS AND MEMORY CELL FORMATION METHODS USING SEALING MATERIAL - Memory cells, arrays of memory cells, and methods of forming the same with sealing material on sidewalls thereof are disclosed herein. One example of forming a memory cell includes forming a stack of materials, forming a trench to a first depth in the stack of materials such that a portion of at least one of the active storage element material and the active select device material is exposed on sidewalls of the trench. A sealing material is formed on the exposed portion of the at least one of the active storage element material and the active select device material and the trench is deepened such that a portion of the other of the at least one of the active storage element material and the active select device material is exposed on the sidewalls of the trench. | 2015-12-10 |
20150357566 | RESISTIVE RANDOM-ACCESS MEMORY WITH IMPLANTED AND RADIATED CHANNELS - Resistive RAM (RRAM) devices having increased uniformity and related manufacturing methods are described. Greater uniformity of performance across an entire chip that includes larger numbers of RRAM cells can be achieved by uniformly creating enhanced channels in the switching layers through the use of radiation damage. The radiation, according to various described embodiments, can be in the form of ions, electromagnetic photons, neutral particles, electrons, and ultrasound. | 2015-12-10 |
20150357567 | RESISTIVE SWITCHING FOR NON VOLATILE MEMORY DEVICE USING AN INTEGRATED BREAKDOWN ELEMENT - A method of suppressing propagation of leakage current in an array of switching devices. The method includes providing a dielectric breakdown element integrally and serially connected to a switching element within each of the switching device. A read voltage (for example) is applied to a selected cell. The propagation of leakage current is suppressed by each of the dielectric breakdown element in unselected cells in the array. The read voltage is sufficient to cause breakdown in the selected cells but insufficient to cause breakdown in the serially connected, unselected cells in a specific embodiment. Methods to fabricate of such devices and to program, to erase and to read the device are provided. | 2015-12-10 |
20150357568 | RESISTIVE RAM DEVICES AND METHODS - The present disclosure includes a high density resistive random access memory (RRAM) device, as well as methods of fabricating a high density RRAM device. One method of forming an RRAM device includes forming a resistive element having a metal-metal oxide interface. Forming the resistive element includes forming an insulative material over the first electrode, and forming a via in the insulative material. The via is conformally filled with a metal material, and the metal material is planarized to within the via. A portion of the metal material within the via is selectively treated to create a metal-metal oxide interface within the via. A second electrode is formed over the resistive element. | 2015-12-10 |
20150357569 | ORGANIC PHOTOVOLTAIC ARRAY AND METHOD OF MANUFACTURE - The fabrication and characterization of large scale inverted organic solar array fabricated using all-spray process is disclosed, consisting of four layers; ITO-Cs | 2015-12-10 |
20150357570 | ENCAPSULATION COMPOSITION (AS AMENDED) - An encapsulation composition, an encapsulation film including the same, an encapsulation product for organic electronic devices, and a method of manufacturing an organic electronic device are provided. The encapsulation composition can be useful in effectively preventing moisture or oxygen from flowing into the organic electronic device from external environments while realizing transparency when the organic electronic device is encapsulated by the encapsulation composition. Also, the encapsulation film formed of the encapsulation composition can be useful in ensuring mechanical properties such as handling properties and processability, and the organic electronic device whose encapsulation structure is formed by means of the encapsulation film may have improved lifespan and durability, thereby providing an encapsulation product for organic electronic devices showing high reliability. | 2015-12-10 |
20150357571 | Photoresist Employing Photodimerization Chemistry and Method for Manufacturing Organic Light Emitting Diode Display Using the Same - A highly fluorinated photoresist employing a photodimerization chemistry and a method for manufacturing an organic light emitting diode display using the same. The photoresist includes a copolymer that is made from two different monomers. When the copolymer is used as a photoresist, the photoresist has the characteristic that it becomes insoluble when exposed to an ultraviolet light having a wavelength of 365 nm. | 2015-12-10 |
20150357572 | METHOD FOR PRODUCING ORGANIC ELECTROLUMINESCENCE DEVICE - A method for producing an organic electroluminescence device of the present invention includes a laminating step of laminating a belt-shaped sealing substrate | 2015-12-10 |
20150357573 | Polymer Dispersed Liquid Crystal Photovoltaic Device and Method for Making - A novel photovoltaic device including a polymer dispersed liquid crystal (PDLC) material that is capable of converting solar energy to electrical energy and method for making. The device may optionally include a conductive container for holding the PDLC material. In an exemplary embodiment, the invention is directed to a self assembled PDLC material, a holographically synthesized PDLC material or a block co-polymer dispersed liquid crystal material. It is envisioned that the invention may be used a power source for any device, system or application. In particular, the invention may be used for any application involving the conversion of solar energy to electrical energy. | 2015-12-10 |
20150357574 | 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, wherein the organic layer includes at least one first material represented by Formula 1 and at least one second material represented by Formula 2: | 2015-12-10 |
20150357575 | AMINE-BASED COMPOUND AND ORGANIC LIGHT-EMITTING DEVICE INCLUDING THE SAME - Provided are an amine-based compound and an organic light-emitting device (OLED) including the same. | 2015-12-10 |
20150357576 | CONDENSED FLUORANTHENE COMPOUND, ORGANIC ELECTROLUMINESCENCE ELEMENT MATERIAL INCLUDING SAME, ORGANIC ELECTROLUMINESCENCE ELEMENT USING SAME, AND ELECTRONIC DEVICE - A fused fluoranthene compound including a specific ring structure at a specific position of a fluoranthene skeleton is a novel material useful as a material for organic electroluminescence devices. | 2015-12-10 |
20150357577 | PYRENE COMPOUND AND ORGANIC LIGHT EMITTING DIODE DEVICE INCLUDING THE SAME - A pyrene compound and an organic light emitting diode device including the same are disclosed. The organic light emitting diode device includes at least two stacks provided between a first electrode and a second electrode, and a charge generation layer provided between the stacks and including an N type charge generation layer and a P type charge generation layer, wherein the N type charge generation layer is made of the pyrene compound. | 2015-12-10 |
20150357578 | ANTIAROMATIC COMPOUNDS AND ORGANIC LIGHT-EMITTING DEVICES COMPRISING THE SAME - An antiaromatic compound and an organic light-emitting device including the same. The antiaromatic compound is represented by Formula 1: | 2015-12-10 |
20150357579 | CARBAZOLE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE - The carbazole derivative is represented by the following General Formula (1). | 2015-12-10 |
20150357580 | CARBAZOLE DERIVATIVE AND ORGANIC ELECTROLUMINESCENT DEVICE - A carbazole derivative is represented by the following Formula (1): | 2015-12-10 |
20150357581 | TRANSPARENT ELECTRODE, ELECTRONIC DEVICE, AND ORGANIC ELECTROLUMINESCENT ELEMENT - A transparent electrode includes a nitrogen-containing layer constituted by using a compound containing a nitrogen atom (N), an electrode layer containing silver (Ag) as a main component, which is disposed adjacent to the nitrogen-containing layer, and two high-refractive index layers each having a higher refractive index than that of the nitrogen-containing layer, which are disposed so that the electrode layer and the nitrogen-containing layer are sandwiched between the high-refractive index layers. | 2015-12-10 |
20150357582 | LIGHT EMITTING MATERIAL AND ORGANIC LIGHT EMITTING DEVICE USING SAME - An organic light emitting device containing a compound represented by the following general formula in a light emitting layer have a high light emission efficiency. In the general formula (1), R | 2015-12-10 |
20150357583 | Novel Organic Electroluminescent Compounds, Layers and Organic Electroluminescent Device Using The Same - The present invention relates to a novel organic electroluminescent compound, layer and an organic electroluminescent device using the same. Said organic luminescent compound provides an organic light emitting layer and/or device which has high luminous efficiency and a long, operation lifetime and requires a low driving voltage improving power efficiency and power consumption. | 2015-12-10 |
20150357584 | A Sulfone Group-Containing Compound, An Organic Light Emitting Diode (OLED) Device Using The Same, and A Method of Fabricating the OLED Device - The present invention provides a sulfone group-containing compound, an organic light emitting diode (OLED) device using the sulfone group-containing compound, and a method of fabricating the OLED device. The sulfone group-containing compound has formula as | 2015-12-10 |
20150357585 | A GREEN LIGHT IRIDIUM (III) COMPLEX AND A METHOD OF PREPARING THE SAME - The present invention provides a green light iridium (III) complex and a method of preparing the same, which has a formula as follows: | 2015-12-10 |
20150357586 | ORGANIC LIGHT-EMITTING ELEMENT - Provided is an organic light-emitting element having high light-emitting efficiency and a long element lifetime. Specifically, provided is an organic light-emitting element, including: an anode; a cathode; and an organic compound layer placed between the anode and the cathode, in which: the organic compound layer includes an emission layer; the emission layer includes at least a host and a guest; the guest is an iridium complex of a specific structure; the host is a heterocycle-containing compound; and a content of the host is 50 wt % or more with reference to a total amount of constituent materials for the emission layer. | 2015-12-10 |
20150357587 | ORGANIC LIGHT-EMITTING ELEMENT - Provided is an organic light-emitting element having high light-emitting efficiency and a long element lifetime. The organic light-emitting element includes an anode, a cathode, and an organic compound layer placed between the anode and the cathode, and the organic compound layer includes an iridium complex represented by the following general formula [1] and a metal complex represented by the following general formula [9]. | 2015-12-10 |
20150357588 | PHOSPHORESCENT MATERIALS - Phosphorescent materials and devices with high device efficiency, stability, and processibility. | 2015-12-10 |
20150357589 | Flexible Substrate - A flexible substrate includes a polymer substrate and a plurality of water and oxygen barrier layers provided on the polymer substrate. A planarization layer is provided between the adjacent water and oxygen barrier layers. The planarization layer includes a plurality of planarization units separated in a first direction and a second direction. A projection of the planarization unit in the planarization layer projected on the polymer substrate covers a gap between projections of adjacent planarization units in an adjacent planarization layer projected on the polymer substrate, and projection regions partially overlap. The adjacent planarization layers can cover the gap between the planarization units to prevent the water and oxygen horizontal from penetrating to ensure that the flexible substrate can be cut into any size within the range lager than the size of the planarization unit. | 2015-12-10 |
20150357590 | Conjugated Polymers and Their Use in Optoelectronic Devices - Disclosed are certain polymeric compounds and their use as organic semiconductors in organic and hybrid optical, optoelectronic, and/or electronic devices such as photovoltaic cells, light emitting diodes, light emitting transistors, and field effect transistors. The disclosed compounds can provide improved device performance, for example, as measured by power conversion efficiency, fill factor, open circuit voltage, field-effect mobility, on/off current ratios, and/or air stability when used in photovoltaic cells or transistors. The disclosed compounds can have good solubility in common solvents enabling device fabrication via solution processes. | 2015-12-10 |
20150357591 | Solar Cells Comprising 2d-Perovskites - A solar cell includes a light-absorbing layer comprising a 2d-perovskite. | 2015-12-10 |
20150357592 | ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode (OLED) display is provided. The OLED display includes a first electrode layer, a second electrode layer, a first light emitting layer, a second light emitting layer, a first n-type charge generation layer, a second n-type charge generation layer, and a metal layer. The first light emitting layer and the second light emitting layer are formed between the first electrode layer and the second electrode layer. The first n-type charge generation layer and the second n-type charge generation layer are formed between the first light emitting layer and the second light emitting layer. The metal layer is formed between the first n-type charge generation layer and the second n-type charge generation layer, wherein the metal layer has a first thickness. | 2015-12-10 |
20150357593 | ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE - An organic EL display device includes an anode electrode made of a conductive material, a cathode electrode made of a conductive material, an anode-side electron injection layer that is an electron injection layer on the anode electrode and between the anode electrode and the cathode electrode, and an anode-side charge generation layer that is a charge generation layer on the anode-side electron injection layer. | 2015-12-10 |
20150357594 | ORGANIC ELECTROLUMINESCENCE PANEL AND METHOD OF MANUFACTURING ORGANIC ELECTROLUMINESCENCE PANEL - An organic electroluminescence panel | 2015-12-10 |
20150357595 | ORGANIC LIGHT EMITTING DISPLAY APPARATUSES AND METHODS OF MANUFACTURING ORGANIC LIGHT EMITTING DISPLAY APPARATUSES - An organic light emitting display apparatus includes a first substrate, a second substrate, an organic light emitting device, a thin film transistor, a wiring pattern and a seal. The first substrate includes a first region, a second region and a third region. The third region surrounds the first region. The second region is between the first region and the third region, and is partially overlapped with the third region. The second substrate faces the first substrate. The organic light emitting device is disposed on the first substrate in the first region. The thin film transistor is disposed on the first substrate in a region where the second region and the third region overlap. The wiring pattern is disposed on the first substrate in the second region. The seal is disposed in the third region, between the first substrate and the second substrate in the third region. | 2015-12-10 |
20150357596 | Organic electroluminescent device - The invention relates to the field of organic electronic devices ( | 2015-12-10 |
20150357597 | ORGANIC ELECTROLUMINESCENT DISPLAY DEVICE AND DISPLAY APPARATUS - The present invention discloses an organic electroluminescent display device and a display apparatus comprising a substrate, an organic electroluminescent pixel array disposed on the substrate, and a package film coated on an outside of the organic electroluminescent pixel array. The organic electroluminescent display device further comprises an optical film laminate body at a light output side thereof; and the optical film laminate body is a preformed integral component including a plurality of functional film layers. Since the optical film laminate body including the plurality of functional film layers can be bonded on organic electroluminescent display device by a single film-bonding process, it simplifies the manufacturing process, decreases the cost, reduces the thickness, and improves the flexibility of the organic electroluminescent display device. In addition, the present invention also discloses a display apparatus comprising the organic electroluminescent display device. | 2015-12-10 |
20150357598 | ORGANIC ELECTROLUMINESCENCE DEVICE - An organic EL device | 2015-12-10 |
20150357599 | BARRIER LAMINATE AND GAS BARRIER FILM - The present invention provides a barrier laminate including at least one inorganic barrier layer and at least one organic layer, wherein the organic layer is a layer formed of a polymerizable composition comprising a polymerizable compound represented by general formula (1) below; and a gas barrier film including the barrier laminate and a support that preferably contains a resin consisting of a polymer or a copolymer comprising a cyclic olefin within a repeating unit or a polycarbonate resin: | 2015-12-10 |
20150357600 | ELECTROLUMINESCENT DEVICE - In an organic EL display device (electroluminescent device) equipped with an organic EL element (electroluminescent element), the organic EL element is encapsulated by a TFT substrate (substrate), a counter substrate, and a sealing resin. A desiccant layer and a highly-moisture-permeable layer are laminated in this order on the organic EL element. The highly-moisture-permeable layer is in direct contact with the sealing resin. | 2015-12-10 |
20150357601 | ORGANIC LIGHT EMITTING DIODE DISPLAY AND MANUFACTURING METHOD THEREOF - An OLED display according to an exemplary embodiment includes: a substrate; an organic light emitting diode formed on the substrate; an overcoat covering the organic light emitting diode; and a patterned metal sheet attached on the overcoat and having a plurality of protrusion and depression portions. A plurality of protrusions may be formed in a bottom surface of the patterned metal sheet where the protrusion and depression portions of the patterned metal sheet and the overcoat face each other. | 2015-12-10 |
20150357602 | ORGANIC LIGHT EMITTING DIODE DISPLAY - An organic light emitting diode (OLED) display is provided. The OLED display has a plurality of pixel regions and comprises a substrate, a first electrode layer formed on the substrate, a second electrode layer formed on the first electrode layer, a pixel defining layer, and a light absorption composite layer. The pixel regions are separated by the pixel defining layer. The light absorption composite layer is formed on the substrate, and absorbs a light with wavelength of 380˜780 nm. The light absorption composite layer comprises a first light absorption layer and a second light absorption layer stacked together. The first light absorption layer absorbs a light with shorter wavelength. The second light absorption layer absorbs a light with longer wavelength different from that of the light absorbed by the first light absorption layer in the region of 380˜780 nm. | 2015-12-10 |
20150357603 | ORGANIC LIGHT-EMITTING TRANSISTOR - An organic light-emitting transistor (OLET) is provided. The OLET includes: a substrate; at least one first electrode on the substrate; a first semiconductor layer having a first conductive type on the first electrode; a second semiconductor layer having a second conductive type on the first semiconductor layer; a gate electrode disposed on a side surface of the second semiconductor layer; a gate insulating layer disposed between the gate electrode and the second semiconductor layer; an organic emission layer on the second semiconductor layer. | 2015-12-10 |
20150357604 | ELECTROLUMINESCENT ORGANIC DOUBLE GATE TRANSISTOR - An organic electroluminescent transistor is described. The organic electroluminescent transistor has a first and a second dielectric layer, a first and a second control electrode and an assembly having a source electrode, a drain electrode and an ambipolar channel. The ambipolar channel has a first layer of semiconductor material, a second layer of semiconductor material and a layer of emissive material arranged between the first layer of semiconductor material and the second layer of semiconductor material. The source electrode and the drain electrode are both in contact with only one of the two layers of semiconductor material. | 2015-12-10 |
20150357605 | METHOD FOR PRODUCING ORGANIC ELECTROLUMINESCENCE DEVICE - A method for producing an organic electroluminescence device using a roll-to-roll method includes the step of sticking a belt-shaped sealing substrate | 2015-12-10 |
20150357606 | Battery Case - A battery case comprises: a first casing member; a second casing member to form a closed space together with the first casing member; a foam material provided along an inner wall surface of the closed space; and a reinforcing member provided in the closed space so as to hold the foam material between the reinforcing member and the inner wall surface. | 2015-12-10 |
20150357607 | ELECTRIC STORAGE DEVICE - An electric storage device includes an electrode assembly, an insulating cover covering the electrode assembly, and a case including a case body having a rectangular box shape and including an opening, the case body being configured to house the electrode assembly and the insulating cover. The insulating cover is foamed into a rectangular box shape conforming to the case body. An embossing is applied to the insulating cover. | 2015-12-10 |
20150357608 | BATTERY FOR ELECTRONIC CIGARETTE - The present application is directed to electronic cigarette accessories. A battery for electronic cigarette includes a housing, a battery and four ports, wherein two ports are voltage output ports, the remaining two ports are expansion ports or voltage output ports. The present application can allow the battery for electronic cigarette to possess expansion capability through providing two voltage outport ports and two expansion ports, so as to facilitate the exchange of the internal information of the battery for electronic cigarette with the external information or an increase in the output power of the battery, allowing the battery to be able to supply energy at load with greater power. Furthermore, the output interface of the battery for electronic cigarette does not require sophisticated metal components, which production cost is half of that for metal connectors. | 2015-12-10 |
20150357609 | PLUG-IN SYSTEM FOR COMBINING LITHIUM-POLYMER BATTERIES AND FOR CONNECTING SAME TO FORM A BATTERY SYSTEM - A battery system includes a container with a plurality of Li—Po batteries arranged with current and balancer terminal with plug-type connections that cannot be transposed for easy assembly and disassembly and for individual transportation of batteries onboard airplanes according to regulations. A balancer plug is connected with a balancer rail with compatible jacks and with a central balancer cable. A current lead-out plug is connected with a central leading-out power cable via bus bars and with coupling elements and compatible jacks. The battery system is connected via the central balancer cable by plug-type connection to a charging station or to a consumer by a respective plug-type connection. A circuit is used as a balancer of each cell in the Li—Po batteries and is arranged in the battery housing. The power storage capacities can be adapted to the field of application by selecting the type and number of the Li—Po batteries. | 2015-12-10 |
20150357610 | PRODUCT DISPENSER - Adhesive tabs having individual apertures are adhered to individual miniature products to be dispensed. The products are supported on a product carrier component having passages through which the tabs individually pass. A hook component is movable relative to the product carrier component. The hook component has a hook sized to successively enter each aperture, and to successively catch and successively remove each tab from its individual product during relative movement of the components. | 2015-12-10 |
20150357611 | BATTERY CASE AND ELECTRODE PLATE SET FOR USE IN THE SAME - The present invention relates to a battery case, which includes: a case body, composed of a bottom wall, two lateral walls, a front wall and a rear wall thereby allowing an elongated accommodation space to be formed, and the accommodation space is formed with at least two insertion slots according to the circuit layout; and an electrode plate set, including a cathode connection plate and an anode connection plate, the cathode and the anode connection plates are respectively inserted in the corresponding insertion slots according to the circuit layout; wherein each of the connection plates is adjacently formed with a pair of first clamping members and a pair of second clamping members thereby enabling a metal wire member and an insulation jacket of a conductive wire to be respectively clamped for providing a dual clamping function, and the conductive wires are protruded out from the case body. | 2015-12-10 |
20150357612 | Electric Device Body And Electric Device - An electric device body in which a battery pack including a plurality of battery cells and a plurality of first terminals is detachably mounted includes: a housing; a guide mechanism; and a plurality of second terminals; and a pressed portion. The battery pack is configured to be attached to and detached from the housing along a first direction. The guide mechanism is provided at the housing and configured to define the first direction. The plurality of second terminals is configured to be connected to the plurality of first terminals upon attachment of the battery pack to the housing. The pressed portion is configured to be pressed against the battery pack in a second direction intersecting the first direction when the battery pack has been attached to the housing. | 2015-12-10 |
20150357613 | METHOD OF LASER WELDING THE HOUSING OF A RECHARGABLE BATTERY - A rechargeable battery including a housing formed from two components formed from polyphenysulfone plastic. One housing component has a lip that is located inwardly of the other housing component. The housing components are further formed so that photonic energy at a select wavelength passes through the outer component and is absorbed by the lip of the second component. Once a rechargeable cell is placed in in one of the housing components, the housing components are placed together so the lip of the second component abuts an inner surface of the first component. Photonic energy at the select wavelength is directed to the joint between the components. The photonic energy passes through the first component and heats the lip of the second component. The heat causes the lip to melt. The melting plastic forms a hermetic weld between the housing components. | 2015-12-10 |
20150357614 | BATTERY CASE - The present invention relates to a battery case for a vehicle, and more particularly to a battery case for effectively lowering or raising the temperature of a battery module consisting of a plurality of batteries used in a vehicle or mechanical apparatus. According to the present invention, a battery case includes: a lower frame with an upper open part; a lower plate fixed to the lower frame for holding the battery module thereon, the lower plate being formed lengthwise with an inlet hole, an outlet hole, and a heat exchange hole; an inner upper frame with an upper surface having a terminal through-hole for enclosing the battery module; a front frame attached to an open front of the inner upper frame for holding a suction fan at the lower part thereof; an outer upper frame with an upper surface having a terminal through-hole for enclosing the inner upper frame and the front frame; a rear plate attached to the rear of the outer upper frame for holding an exhaust fan; and a guide partition wall arranged in the side of the inner upper frame so as to closely contact the battery module, characterized in that the guide partition wall guides the cooling (heating) air sucked by the suction fan along a zigzag path from the lower part of the side of the battery module to the upper part thereof to the exhaust fan. | 2015-12-10 |
20150357615 | BATTERY ASSEMBLY REINFORCEMENT MEMBER - A battery assembly according to an exemplary aspect of the present disclosure includes, among other things, a tray, a battery array mounted to the tray, a cover positioned about the battery array and a reinforcement member disposed between the cover and the battery array. | 2015-12-10 |
20150357616 | BATTERY MODULE - A battery module includes a battery cell, a heat transfer plate, and a holder. The heat transfer plate is arranged side by side with the battery cell and has an edge and is thermally coupled to the battery cell. The holder holds the battery cell and that has a cutout section to which the heat transfer plate is fitted. The edge of the heat-transmitting plate has a first engagement section that is at least one of a first recess and a first protrusion. The holder has a second engagement section that is at least one of a second protrusion, which is fitted to the first recess and a second protrusions, which is fitted to the first protrusion. | 2015-12-10 |
20150357617 | RESTRAINT FOR GROUP-CELL, RESTRAINING MEMBER FOR GROUP-CELL, AND BATTERY - A restraint for a group-cell includes a main-body part and a shunt part. The main-body part is provided at one end-side of the group-cell in an arrangement direction in which battery cells are arranged. The shunt part extends from the main-body part towards an other end-side of the group-cell in the arrangement direction to form a shunt space between the shunt part and a portion of the group-cell provided at the one end-side in the arrangement direction, wherein an aperture to let in a coolant is formed at the one end-side in the arrangement direction as viewed from the shunt space. | 2015-12-10 |
20150357618 | LITHIUM-ION CELL - A leak test defect is suppressed which is generated by short circuit between a positive electrode and a negative electrode with a lithium metal present in the vicinity of an end portion of a separator, and an initial charge/discharge efficiency of a lithium-ion cell and cycle characteristics thereof are improved. In the lithium-ion cell, the separator includes a polyolefin as a primary material and a uniform lithium metal film formed on a surface portion thereof which is located at the negative electrode plate side and which does not face the negative electrode active material layer, and the lithium metal film is electrically insulated from the positive electrode collector. | 2015-12-10 |
20150357619 | SEPARATOR HAVING POROUS COATING LAYER, AND ELECTROCHEMICAL DEVICE CONTAINING THE SAME - A separator includes a monolayer-type polyolefin-based micro-porous film having a porosity of 40 to 60%, an average pore diameter of 60 nm or less, and an air permeability of 350 s/100 mL or less; and a porous coating layer formed on at least one surface of the micro-porous film and made of a mixture of a plurality of inorganic particles and a binder polymer. An electrochemical device having the above separator has excellent thermal stability and allows a high power while minimizing the occurrence of leak current. | 2015-12-10 |
20150357620 | BATTERY WIRING MODULE - Provided is a battery wiring module to be attached to a single cell group in which a plurality of single cells each having a positive electrode section and a negative electrode section are lined up, and to connect the electrode sections. The battery wiring module includes a connecting member configured to connect the electrode sections, and a protector by which the connecting member is held. The protector has a positioning section that is fitted to positioned sections formed in a single cell prior to the connecting member reaching the electrode sections when the battery wiring module is attached to the single cells. The positioning section is provided projecting farther to the single cell side than the connecting member. | 2015-12-10 |