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WO/2020/213224A1 |
Provided are: a copper alloy sheet material which has excellent bendability while maintaining high strength, also has excellent stress corrosion cracking resistance and stress relaxation resistance properties, and is inexpensive; and a m...
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WO/2020/215097A1 |
Embodiments of a a free-standing ultrathin polymer film that allows for increased conductivity, strength, traceability, and usable energy range.
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WO/2020/208760A1 |
[Problem] To provide: an ion exchange membrane which is able to be easily produced at low cost; and a method for producing this ion exchange membrane. [Solution] Ten mL of a 50 mass% aqueous sodium silicate solution that is obtained by a...
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WO/2020/206646A1 |
The present invention is applicable to the technical field of flexible conductive thin films. Disclosed are a stretchable and ultra-sensitive flexible conductive thin film based on silver powder and PDMS, and a preparation method therefo...
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WO/2020/210781A1 |
The present invention relates to adhesive and electroconductive cardiopatches designed to provide mechanical support and restore electromechanical coupling at the site of MI to minimize cardiac remodeling and preserve normal cardiac func...
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WO/2020/209850A1 |
Methods and systems for using a photosintering system to sinter one or more paint layers for a paint circuit. In one aspect, a photosintering system includes a photosintering device including a light source and multiple proximity sensors...
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WO/2020/205903A1 |
A method of forming a conductive film. The method includes applying an ink onto a substrate. The ink includes a plurality of nanostructures formed from an electrically-conductive material and a polymer binder. The method includes drying ...
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WO/2020/203046A1 |
The present invention provides a lithium nitride composition capable of improving the lithium ion conductivity of a resulting sulfide-based inorganic solid electrolyte material. The present invention pertains to a lithium nitride compo...
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WO/2020/199637A1 |
Multi-size mixed nanoparticle paste (8) and a preparation method therefor. The preparation method comprises: preparing large-size nano-copper paste (2) by means of a chemical method; imparting kinetic energy to small-size nano-metal part...
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WO/2020/205904A1 |
A transparent, electrically-conductive film and associated method of making the transparent, electrically-conductive film. The transparent, electrically-conductive film includes a substrate, a percolating network of nanostructures establ...
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WO/2020/203076A1 |
The present invention provides an Ag-Pd alloy powder having excellent heat resistance even when having a low Pd content. The silver-palladium alloy powder disclosed herein mainly comprises an alloy of silver (Ag) and palladium (Pd), and ...
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WO/2020/203075A1 |
The present invention provides a plastic-crystal solid electrolyte having high ionic conductivity, and an energy storage device in which the solid electrolyte is used. The plastic crystal includes two different anions selected from the g...
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WO/2020/205901A1 |
A method of concurrently determining length and diameter of nanowires. Nanowires are provided onto a support. A chosen illumination of the nanowires on the support is provided. An image of the nanowires on the support is obtained. A leng...
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WO/2020/202280A1 |
The purpose of the present invention is to provide a conductive metal paste having improved conductivity without increasing the amount of a conductive filler to be added. The conductive metal paste contains a metal filler and less than 1...
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WO/2020/204450A1 |
The present invention relates to mixed silver powder and a conductive paste comprising same, wherein, by mixing two or more types of spherical silver powder having different properties, the disadvantages of the respective types of powder...
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WO/2020/205902A1 |
A method for predicting at least one performance property of a transparent conductive film to be made from an ink containing nanowires prior to making the transparent conductive film. The method includes obtaining a nanowire population f...
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WO/2020/203224A1 |
A sulfide solid electrolyte having ion conductivity. The sulfide solid electrolyte contains an organic solvent. The amount of organic solvent content contained in the sulfide solid electrolyte is no more than 0.95% by mass. Ideally, the ...
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WO/2020/199640A1 |
Disclosed are a multilayer metal film and a preparation method therefor. The multilayer metal film comprises a first organic dielectric material layer, and a second organic dielectric material layer, wherein the first organic dielectric ...
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WO/2020/203417A1 |
[Problem] Provided is an inexpensive carbon wiring board having both high environmental resistance and a wide distortion detection range. [Solution] According to the present invention, this carbon wiring board has a wiring pattern formed...
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WO/2020/203714A1 |
The present invention addresses the problem of providing: a dispersant which enables the production of a dispersed material having excellent dispersibility and storage stability even when the dispersant is used in a small amount; a dispe...
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WO/2020/199638A1 |
A multi-sized nanoparticle mixed metal film and a manufacturing method therefor, comprising: an organic dielectric material (1) forming an organic covering layer, metal nanoparticles (2 and 3) of at least two sizes provided in the organi...
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WO/2020/203047A1 |
This production method is for producing a sulfide inorganic solid electrolyte material including Li, P and S as constituent elements. The method includes a preparation step for preparing a material inorganic composition (A) containing at...
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WO/2020/203882A1 |
A polymeric binder comprising an ion-conductive polymer which comprises a polymer and metal ions. The polymer is preferably selected from the group consisting of polyesters, polyethers, anionic polymers, polycarbonates, and silicones. Th...
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WO/2020/203231A1 |
This sulfide solid electrolyte includes lithium (Li), phosphorus (P), and sulfur (S). With respect to the sulfide solid electrolyte, in a spectrum obtained through 1H-NMR measurement, at least one peak is observed in the range of 3.4-4.8...
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WO/2020/203045A1 |
The purpose of the present invention is to provide a diphosphorus pentasulfide composition from which a sulfide-based inorganic solid electrolyte material having improved lithium ion conductivity can be obtained. The present invention ...
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WO/2020/203726A1 |
The present invention provides a coreless motor which has a carbon nanotube electrical wire having excellent shape retention characteristics as a coil winding wire and excellent heat radiation characteristics as the coil winding wire. Th...
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WO/2020/205906A1 |
A method of forming a transparent, electrically-conductive film and an associated film. The method can be a transfer method. A region of a substrate is provided with a binder that includes metal nanostructures suspended in a photosensiti...
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WO/2020/205731A1 |
A method of fabricating a highly activated, highly porous, highly electrically conductive net- shaped monolithic electrode for use in an electrical energy storage device including an ultracapacitor, pseudo-capacitor, battery, or in an el...
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WO/2020/196640A1 |
The present invention provides: an electroconductive paste composition with which it is possible to obtain an excellent adhesion strength during soldering after electrode formation, even when the amount of silver power contained in an el...
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WO/2020/193526A1 |
The present invention relates to a conductive multicomponent system (10, 110) comprising at least one first substance (S1) and comprising at least one substrate (B), wherein a) the first substance (S1) is present in one or more substance...
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WO/2020/195905A1 |
This solution composition contains a conductive polymer, a resin, and a solvent, and has an acid number of 0.0-14.5 mgKOH/g or a base number of 0.0-1.0 mgHCl/g.
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WO/2020/195219A1 |
This copper alloy plate contains 0.1-0.6 mass% of Cr, and a total of 0.01-0.30 mass% of Zr and/or Ti, the remaining portion being copper and incidental impurities. Regarding the copper alloy plate, the Schmid factor as measured when tens...
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WO/2020/195384A1 |
The solid electrolyte according to the present invention has a composition represented by MgxZry(POz)2 (0
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WO/2020/195346A1 |
Provided are a solid electrolyte (1) comprising stabilized or partially stabilized zirconia, and a gas sensor provided with the solid electrolyte (1). The percentage change in a crystallite diameter, pre-versus-post-heating of the solid ...
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WO/2020/196278A1 |
The present invention addresses the problem of preventing an electrolyte membrane with a catalyst layer from voltage increase caused by insufficient adhesion between an electrolyte membrane and an adhesion promoting layer and from oxidat...
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WO/2020/194897A1 |
The present disclosure provides a solid electrolyte material that has a high lithium ion conductivity. A solid electrolyte material according to the present disclosure comprises Li, M1, M2, and X, and has a spinel structure. M1 is at lea...
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WO/2020/196041A1 |
The present invention provides: a solid electrolyte composition which contains an inorganic solid electrolyte, a polymer and a dispersion medium, and which is configured such that the polymer has a specific bond in the main chain, while ...
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WO/2020/196383A1 |
Provided is a material that is usable in a fuel cell catalyst layer and that exhibits proton conductivity. The present invention is a carbon-based solid acid containing a carbon material provided with a sulfonic acid group through a li...
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WO/2020/195218A1 |
This copper alloy plate contains 0.1-0.6 mass% of Cr, and a total of 0.01-0.30 mass% of Zr and/or Ti, the remaining portion being copper and incidental impurities. Regarding this copper alloy plate, the difference between the Schmid fact...
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WO/2020/197732A1 |
A polymer blend, including at least one organic semiconductor (OSC) polymer, such that: the at least one OSC polymer is a diketopyrrolopyrrole-fused thiophene polymeric material, the fused thiophene is beta-substituted, the at least one ...
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WO/2020/194898A1 |
The present disclosure provides a solid electrolyte material that has a high lithium ion conductivity. A solid electrolyte material according to the present disclosure comprises Li, M, and X. M is at least one type of element selected fr...
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WO/2020/194824A1 |
Provided is a method for manufacturing an easily-manufacturable anisotropic conduction sheet which can be used for inspection of high frequency components and semiconductor packages in which wirings are laid at a narrow pitch and the wir...
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WO/2020/193536A1 |
The invention relates to a multicomponent system comprising at least one first substance and at least one second substance. The multicomponent system can be activated, and the first substance and the second substance are provided in mult...
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WO/2020/194822A1 |
Provided is a 3LiOH·Li2SO4 solid electrolyte with which a reduction in lithium ion conductivity is significantly inhibited, even after long-term storage at a high temperature. This solid electrolyte is identified as 3LiOH·Li2SO4 by X-r...
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WO/2020/189776A1 |
Provided is a conductive particle which makes it possible to effectively suppress cracking of a conductive portion during mounting and effectively reduce connection resistance between electrodes. The conductive particle according to th...
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WO/2020/188914A1 |
The present disclosure provides a solid electrolyte material which has high lithium ion conductivity. A solid electrolyte material according to the present disclosure contains Li, Zr, Y, M and X. M represents at least one element that is...
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WO/2020/188913A1 |
The present disclosure provides a solid electrolyte material which has high lithium ion conductivity. A solid electrolyte material according to the present disclosure contains Li, Zr, Y, M and X. M represents at least one element that is...
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WO/2020/188915A1 |
The present disclosure provides a solid electrolyte material having high lithium ion conductivity. A solid electrolyte material according to the present disclosure contains Li, Zr, Y, W, and X. X is at least one element selected from the...
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WO/2020/189697A1 |
The present invention provides resin particles which are able to be uniformly brought into contact with an adherend, and which are configured such that if conductive particles that are obtained by forming conductive parts on the surfaces...
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WO/2020/189901A1 |
The present disclosure according to one aspect relates to conductive powder comprising: core particles; and a polymer layer surrounding the surface of the core particles, wherein the polymer layer has a plurality of conductive particles ...
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