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WO/2024/096101A1 |
This ion conductive substance contains an alkali metal element, a metal element M, a halogen element, a dopant element X, and an oxygen element. The metal element M is at least one of Ta and Nb. The dopant element X is at least one eleme...
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WO/2024/095757A1 |
The purpose of the present invention is to provide: a carbon material dispersion solution which does not adversely affect other blended components, is effective against microorganism including a broad spectrum of bacteria, fungi and yeas...
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WO/2024/096127A1 |
The present invention addresses the problem of providing a method for producing a solid electrolyte material having an α-Li3PS4 phase. The problem is solved by a method for producing a solid electrolyte material having an α-Li3PS4 phas...
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WO/2024/094847A1 |
The invention relates to a process for producing mayenite, comprising the following sequence of steps: a) making a feedstock suitable for obtaining, at the end of step c), a product comprising more than 90% of a mayenite comprising calci...
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WO/2024/095953A1 |
Provided is a carbon nanotube dispersion having exceptional dispersibility. This carbon nanotube dispersion contains at least carbon nanotubes, oxidized cellulose nanofibers, and water, the carbon nanotube dispersion being characterized ...
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WO/2024/096111A1 |
This composite electrolyte comprises an inorganic solid electrolyte and an ionic plastic crystal containing an alkali metal ion.
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WO/2024/096065A1 |
Provided is a solid electrolyte laminate which can realize a solid secondary battery capable of preventing short-circuiting at a time of charging with a large current and/or capable of suppressing degradation of battery capacity even whe...
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WO/2024/096108A1 |
This battery material contains a solid electrolyte material and an ionic liquid. The solid electrolyte material contains: an alkali metal element; a metal element which is not an alkali metal element, or a metalloid element; and a haloge...
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WO/2024/096113A1 |
A battery comprising a positive electrode, a negative electrode, and electrolyte layers disposed between the positive electrode and the negative electrode, wherein: the electrolyte layers include a first electrolyte layer and a second el...
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WO/2024/090515A1 |
The present invention addresses the problem of providing a membrane electrode assembly which comprises a hydrocarbon-based polymer electrolyte membrane and a gas diffusion electrode, and which has low electrical resistance and low therma...
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WO/2024/090427A1 |
The present invention provides a molded body which has low compression set and low hardness, while having electrical conductivity. This molded body contains a polyurethane elastomer and a conductive filler; the polyurethane elastomer com...
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WO/2024/090310A1 |
According to the present invention, it is possible to provide a polycarbonate resin that contains a constituent unit (A) derived from a monomer represented by general formula (1), a constituent unit (B) derived from a monomer represented...
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WO/2024/090403A1 |
Conventionally, it was not possible to obtain a conductive pillar module that is for manufacturing a semiconductor, that can be used for laying a secondary wiring on a substrate of a flip chip package and forming a redistribution layer (...
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WO/2024/089802A1 |
This edible conductive material contains an organogel composed of a non-drying oil as a dispersion medium (101), and an edible metal powder (102) and an activated carbon powder (103) as dispersoids. The edible conductive material can be ...
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WO/2024/085070A1 |
The present invention pertains to a sulfide solid electrolyte powder having a specific surface area of at least 5 m2/g, wherein, in a case in which reflected light, when a powder pellet obtained by molding the sulfide solid electrolyte p...
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WO/2024/085045A1 |
The present invention pertains to a sulfide solid electrolyte that contains Li, P, S, and Ha, and that has an argyrodite-type crystal structure. The crystal structure has a plurality of PS4 tetrahedrons T1 in which a part of elements is ...
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WO/2024/083686A1 |
The present invention relates to an electrically conductive polymer composition comprising (A) at least 50 wt.% of polyphenylene sulphide (PPS); (B) 0.2 – 3.0 wt.% of carbon nanostructure particles (CNP); and (C) 17 – 37 wt.% of non-...
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WO/2024/085091A1 |
This conductive paste contains: a conductive powder mainly composed of copper; a glass frit; a binder resin; and an organic solvent. The conductive paste is characterized in that: the conductive powder mainly composed of copper has, in a...
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WO/2024/080685A1 |
The present invention provides a micro metal molded article in which the magnetic areas and conductive areas are separated such that when the magnetic parts of adjacent micro metal molded articles are oriented by magnetic lines of force,...
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WO/2024/080321A1 |
The present invention provides: a compound which is capable of producing a polymer that has excellent alkali durability; a polymer which comprises this compound as a monomer; an electrolyte membrane which uses this polymer and has excell...
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WO/2024/077392A1 |
Nanowire comprising an electrically conducting or semi-conducting core surrounded by an electrically insulating sheath are provided together with transducers and transistors based on these nanowires. The core of the nanowire has an avera...
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WO/2024/080197A1 |
This conductive composition contains (a) carbon nanotubes, (b) a soluble conductive polymer, and (c) a solvent. The soluble conductive polymer is (i) or (ii) below. (i) A complex obtained by doping a conductive polymer with a hydrophobic...
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WO/2024/075946A1 |
An electronic device, according to one embodiment, may comprise: a display; a conductive plate supporting the display; a bracket which is spaced apart from the conductive plate and includes a structure with at least a portion therein rem...
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WO/2024/076691A2 |
Composite materials with noble metal coated silver nanowires loaded into polymer are described. The composite materials may have resistivities of no more than about 100 Ohm-cm, or from about 100 Ohm-cm to about 1 x 1011 Ohm-cm depending ...
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WO/2024/075521A1 |
Provided are copper particles having a carbon content of 0.1-2.5 mass% as calculated by the following method. [Method for calculating carbon content] The carbon content is calculated by weighing out 0.5 g of the copper particles, adding ...
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WO/2024/076212A1 |
This conductor for a cable is formed of a composite wire formed by twisting a plurality of collected wires formed by twisting a plurality of wires, and includes a central conductor including the collected wires and one or more outer cond...
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WO/2024/075979A1 |
The present invention relates to a touch panel which detects a capacitive touch input of a body finger or a touch input tool with conductive characteristics similar to those of the body finger and, more specifically, to a touch panel hav...
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WO/2024/071056A1 |
The present invention provides: an inorganic solid electrolyte-containing composition which contains an inorganic solid electrolyte, a polymer binder, a compound and a dispersion medium, while satisfying conditions (1) to (3); a sheet fo...
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WO/2024/070706A1 |
The present invention discloses a positive electrode for a nonaqueous electrolyte secondary battery. The positive electrode includes a positive-electrode mixture layer. The positive-electrode mixture layer contains a positive-electrode a...
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WO/2024/070271A1 |
The problem addressd by this invention is to provide a conductive composition that can be sintered at low temperature and has low resistance, the composition forming a conductive film having excellent flexibility and bend resistance. P...
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WO/2024/070660A1 |
This solid electrolyte contains a compound expressed by formula (1), the peak width at half intensity relative to the intensity of the most-intense peak PA within a range of 200-450 cm−1 in a Raman spectrum being 55 cm−1 or higher, a...
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WO/2024/070885A1 |
The present invention provides a gel-like electrolyte that exhibits excellent shape stability and high ionic conductivity at room temperature. Also provided is a curable composition which exhibits excellent storage stability and is used ...
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WO/2024/070397A1 |
The present invention provides a carbon nanotube dispersed liquid which exhibits excellent dispersion stability of single-walled carbon nanotubes. A carbon nanotube dispersed liquid according to one embodiment of the present invention ...
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WO/2024/071144A1 |
The present disclosure provides a carbon nanotube dispersion that contains a solvent and bundle-type carbon nanotubes formed from carbon nanotubes having an average diameter of 3 nm to 30 nm, a ratio of the number of bundle-type carbon n...
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WO/2024/070628A1 |
A bonded structure which comprises a first conductive member, a second conductive member, and a solder bonding part for bonding the first conductive member and the second conductive member to each other, wherein at least one of the first...
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WO/2024/070861A1 |
The present invention provides a zirconium phosphate-based novel oxide which exhibits high Li conductivity, and a method for producing the same. Further provided are a solid electrolyte which uses said oxide, and a power storage device.ã...
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WO/2024/071400A1 |
The present invention provides an electroconductive adhesive layer which is capable of exhibiting sufficient adhesion strength to various adherends even if compression bonding is performed at low temperatures for a short period of time.ã...
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WO/2024/070705A1 |
This positive electrode is for non-aqueous electrolyte secondary batteries. The positive electrode includes a positive electrode mixture layer. The positive electrode mixture layer contains a positive electrode active material, a conduct...
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WO/2024/070339A1 |
The present invention addresses the problem of providing: a conductive adhesive material-forming composition, with which a conductive adhesive material having high conductivity and bonding strength can be formed; a conductive adhesive ma...
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WO/2024/070450A1 |
The solid-electrolyte material of the present disclosure includes a polymer having a main chain having, bonded thereto, an acidic functional group having an alkali metal ion, the polymer having a crosslinked structure containing an elect...
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WO/2024/063158A1 |
This electrolyte composition comprises: an ionically conductive inorganic solid electrolyte; a polymer having the ability to preferentially conduct metal ions; and an ionic liquid.
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WO/2024/061689A1 |
A method for producing an electronic component comprises steps for providing an electronic semiconductor chip, wherein a first contact pad and a second contact pad are formed on a contact side of the electronic semiconductor chip, wherei...
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WO/2024/063159A1 |
This coating material for a battery member comprises a polymer having the ability to preferentially conduct metal ions.
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WO/2024/063160A1 |
An electrolyte composition comprising an ion-conductive inorganic solid electrolyte, a polymer having the ability to preferentially conduct metal ions, and an organic solvent, the electrolyte composition satisfying that the content of th...
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WO/2024/062945A1 |
A crystallized glass comprising: lithium (Li), element M, phosphorus (P), and oxygen (O); and at least one selected from boron (B) and silicon (Si), wherein the element M includes at least one selected from the group consisting of zircon...
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WO/2024/062755A1 |
This solid electrolyte 10 comprises Li, Ti, M, and F. M is at least one selected from the group consisting of Mg, Ca, Sr, Ba, Sc, Y, Al, Ga, In, Zr, and Sn. In the X-ray diffraction pattern obtained by X-ray diffraction measurement using...
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WO/2024/062857A1 |
The present invention provides: an electrically conductive paste which uses an electrically conductive powder and a ceramic powder that are refined for the size reduction and thickness reduction of a multilayer ceramic electronic compone...
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WO/2024/058074A1 |
The purpose of the present disclosure is to provide a bonding conductor paste which can be reduced in solvent penetration to have improved printability and can be reduced in void formation to have improved bonding properties. This bond...
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WO/2024/058020A1 |
Provided is a block copolymer having at least one segment having an ionic group (also referred to as "ionic segment", hereinafter) and at least one segment having no ionic group (also referred to as "non-ionic segment", hereinafter), in ...
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WO/2024/058052A1 |
An ion conductive substance comprising: an alkali metal element; a tetravalent metal element M; a halogen element; a dopant element X; and an oxygen element, wherein the content of the dopant element X is 50 mol% or less with respect to ...
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