Document |
Document Title |
WO/2022/004629A1 |
The present invention pertains to metal wiring that is formed on a flexible substrate and that is formed of a sintered body of silver particles. The sintered body forming the metal wiring is characterized by having a volume resistivity o...
|
WO/2022/004791A1 |
One embodiment of this copper alloy has a composition that contains more than 10 mass ppm but less than 100 mass ppm of Mg, with the balance being made up of Cu and unavoidable impurities; among the unavoidable impurities, the amount of ...
|
WO/2022/001952A1 |
An electrically and thermally conductive adhesive film and a preparation method and an application thereof. The adhesive film comprises an adhesive matrix and a metal mesh; the metal mesh is embedded into the adhesive matrix, and the len...
|
WO/2022/004541A1 |
Metal coated resin particles (10), each of which comprises a spherical core resin particle (11) and a metal coating layer (12) that is provided on the surface of the core resin particle (11), wherein the metal coating layer (12) is compo...
|
WO/2022/005783A1 |
This disclosure relates to a dielectric film-forming composition that includes at least one cyclized polydiene resin, and one or both of at least one reactive functional compound and at least one catalyst.
|
WO/2022/002812A1 |
The invention relates to a method for producing an endless polar plate semi-finished product (80, 88) for polar plates (90) for electrochemical cells, in particular fuel cells. In a first step of the method, a first endless polar plate f...
|
WO/2022/004803A1 |
This copper alloy plastic working material has a composition that contains more than 10 mass ppm but not more than 100 mass ppm of Mg, with the balance being made up of Cu and unavoidable impurities; among the unavoidable impurities, S i...
|
WO/2022/004794A1 |
This copper alloy includes more than 10 mass ppm and no more than 100 mass ppm of Mg and a remainder of Cu and unavoidable impurities. The unavoidable impurities include 10 mass ppm or less of S, 10 mass ppm or less of P, 5 mass ppm or l...
|
WO/2021/258196A1 |
A method of fabricating a conductive yarn comprising a plurality of filaments, the method comprising the steps of: (a) applying a reducing agent solution to the treated surface; and (b) applying a metal ion solution to the treated at lea...
|
WO/2021/261526A1 |
Provided are: an inorganic solid electrolyte-containing composition that contains an inorganic solid electrolyte, a dispersion medium, and components constituting a polymer binder, the components constituting the polymer binder comprisin...
|
WO/2021/260960A1 |
The purpose of the present invention is to provide a conductive paste with excellent bonding strength when bonding electronic substrates; a laminate body; and a method of bonding a copper substrate/copper electrode and a conductor. Thi...
|
WO/2021/261361A1 |
A solid electrolyte composition 1000 according to the present disclosure contains a solvent 102 and a solid electrolyte 101 dispersed in the solvent 102. The solid electrolyte 101 includes a halide solid electrolyte. The Hansen solubilit...
|
WO/2021/261558A1 |
A solid electrolyte according to the present invention comprises a compound represented by the following formula. AaEbGcXd (wherein, A is at least one element selected from Li and Cs. E is at least one element selected from Al, Sc, Y, Zr...
|
WO/2021/253603A1 |
Disclosed is a method for manufacturing a Cu-Cr-Zr alloy conductor for an electrified railway, the method comprising: S1, preparation of materials, involving: selecting and preparing corresponding raw materials according to a composition...
|
WO/2021/256048A1 |
[Problem] In view of the problem with the prior art, the present invention addresses the following problems: providing a method that can suppress the occurrence of silver fine particles in silver nanowire dispersions better than prior me...
|
WO/2021/256253A1 |
A Ni paste characterized by containing an electroconductive powder (A) mainly comprising Ni, a binder resin (B), an organic solvent (C), and a coexisting material (D), and by furthermore containing a Ti-including additive (E) in the rang...
|
WO/2021/256221A1 |
A proton conducting cell structure which is provided with an air electrode, a hydrogen electrode and a solid electrolyte layer that is interposed between the air electrode and the hydrogen electrode, wherein: the solid electrolyte layer ...
|
WO/2021/256036A1 |
The purpose of the present invention is to provide an oxide type solid electrolyte having high lithium ion conductance. The present invention is a lithium ion-conducting garnet type oxide which contains Li, La, Ga, Zr, a halogen element,...
|
WO/2021/251409A1 |
One embodiment of the present invention relates to a solid electrolyte material, a solid electrolyte, a solid electrolyte production method, or an all-solid-state battery, wherein the solid electrolyte material contains lithium, tantalum...
|
WO/2021/251408A1 |
One embodiment of the present invention relates to a solid electrolyte material, a solid electrolyte, a solid electrolyte production method, or an all-solid-state battery, wherein the solid electrolyte material contains lithium, tantalum...
|
WO/2021/251405A1 |
One embodiment of the present invention relates to a solid electrolyte material, a solid electrolyte, production methods therefor, or an all-solid-state battery, wherein the solid electrolyte material contains a lithium ion conductive co...
|
WO/2021/251411A1 |
One embodiment of the present invention relates to a lithium ion-conductive solid electrolyte or an all-solid-state battery, wherein the lithium ion-conductive solid electrolyte satisfies any of (I)-(III). (I) The lithium ion-conductiv...
|
WO/2021/252906A2 |
A sulfur reaction product formed by reacting elemental sulfur with an amine or epoxy compound containing reactive functionality. Such reaction product can be incorporated into a thermosettable resin composition as a modifier. When the th...
|
WO/2021/251406A1 |
One embodiment of the present invention relates to a solid electrolyte material, a solid electrolyte, a solid electrolyte production method, or an all-solid-state battery, wherein the solid electrolyte material contains lithium, tantalum...
|
WO/2021/251347A1 |
This solid electrolyte comprises a crystal phase that has an argyrodite crystal structure, while containing at least elemental lithium (Li), elemental phosphorus (P), elemental sulfur (S), elemental halogen (X) and elemental oxygen (O). ...
|
WO/2021/251407A1 |
One embodiment of the present invention relates to a solid electrolyte material, a solid electrolyte, a solid electrolyte production method, or an all-solid-state battery, wherein the solid electrolyte material is an amorphous substance ...
|
WO/2021/251410A1 |
One embodiment of the present invention relates to a solid electrolyte material, a solid electrolyte, a solid electrolyte production method, or an all-solid-state battery, wherein the solid electrolyte material is an amorphous substance ...
|
WO/2021/250985A1 |
This solid electrolyte material contains Li, M, O, and X. M is at least one element selected from the group consisting of Ti, Zr, and Hf. X is at least one element selected from the group consisting of Cl, Br, and I. The mole ratio of Li...
|
WO/2021/246362A1 |
When an electroconductive carbon material is used as a raw material to obtain a stable form in which the electroconductivity is maintained and/or improved, and when the stable form is used in a catalyst layer in a fuel cell, the power ge...
|
WO/2021/246523A1 |
Provided are conductive particles that can increase saturation magnetization and reduce remanent magnetization, and can increase conduction reliability when electrically connecting electrodes. Each conductive particle according to the ...
|
WO/2021/246482A1 |
Provided are a method for producing a bonded body capable of obtaining exceptional adhesive strength and connection reliability, a bonded body, and a hot melt adhesive sheet containing electroconductive particles. A method for producing ...
|
WO/2021/246483A1 |
Provided are a method for producing an assembly capable of obtaining exceptional adhesive strength and connection reliability, an assembly, and an electroconductive particle-containing hot melt adhesive sheet. A method for producing an a...
|
WO/2021/244060A1 |
Disclosed is a thick film resistance slurry, which comprises at least two among Ag powder, Pt powder, and Ag-Pt alloy powder; the Pt powder or the Ag-Pt alloy powder is at least one among honeycomb-shaped, flocculent, spherical, and sphe...
|
WO/2021/241767A1 |
The present invention comprises the steps of: applying, on a substrate, a conductive paste including metal particles that are dispersed in an organic material and have a first particle diameter, and a magnetic heating element that has a ...
|
WO/2021/241002A1 |
A solid electrolyte 10 according to the present disclosure comprises: a porous dielectric body 11 which has a plurality of pores 12 that are connected with each other; and an electrolyte 13 which contains a metal salt and at least one co...
|
WO/2021/241429A1 |
The present invention provides a solid-state battery that has a sufficiently high usage rate of a negative electrode active material during charging and discharging, even when having a lower content of a conductive assistant. The solid-s...
|
WO/2021/241599A1 |
The purpose of the present invention is to provide a slurry composition for all-solid-state secondary batteries, said slurry composition being capable of forming a solid electrolyte-containing layer that enables an all-solid-state second...
|
WO/2021/239658A1 |
Here described is the production of wires, strands, rigid ropes and flexible ropes having high electric, physico-chemical and environmental performances for the purposes of electrical conduction, enhanced through multilayer deposition co...
|
WO/2021/241787A1 |
The purpose of the present invention is to provide conductive oxide particles having a dense conductive coating layer formed on the surface, and a method for producing same. To achieve the purpose, the present invention may provide condu...
|
WO/2021/241172A1 |
This solid electrolyte material contains Li, Sc, and Cl. In an X-ray diffraction pattern of the solid electrolyte material obtained using Cu-Kα rays, at least two peaks are resent in the range of a diffraction angle 2θ that is 27-36° ...
|
WO/2021/240124A1 |
A conductive paste comprising: a solids portion comprising a silver powder and a crystalline metal compound powder; and an organic carrier medium in which the silver powder and crystalline metal compound powder are dispersed, wherein the...
|
WO/2021/235654A1 |
The present invention relates to a 3D printer using a Peltier element and a heater, comprising: a dispenser which stores a raw material and has a nozzle through which the raw material is sprayed; a Peltier element of which one side and t...
|
WO/2021/235447A1 |
The present invention relates to a conductive composition, and a member having a sintered part or a bonding part that uses the composition, and preferably to an electronic component, and more preferably to an electronic component for a v...
|
WO/2021/235650A1 |
The present invention relates to a multilayer molded article having at least two layers including a surface layer and an inner layer, wherein the surface layer prepared by adding a carbon filler to a tacky resin and provides excellent ta...
|
WO/2021/235433A1 |
The purpose is to provide a method for producing electrically conductive particles, in which the quality of the electrically conductive particles is less affected and the cost for the production of the electrically conductive particles i...
|
WO/2021/235435A1 |
The present invention provides an electrically conductive particle which exhibits excellent storage stability, excellent corrosion resistance and low connection resistance, and in which a nickel plating layer is formed as an electrically...
|
WO/2021/235434A1 |
Provided are electroconductive particles having a small connection resistance and excellent connection reliability, the electroconductive particles each having an electroconductive layer on the surface of a core particle, wherein: the ma...
|
WO/2021/235401A1 |
The present invention provides a solid electrolyte ceramic material that has sufficiently higher ionic conductivity and more sufficiently suppresses the growth of Li dendrites. The present invention relates to a solid electrolyte ceramic...
|
WO/2021/235402A1 |
This nickel powder is composed of an aggregate of nickel particles having a dendrite shape, and has a tap density TD of from 0.3 g/cm3 to 3.0 g/cm3 as determined in accordance with JIS Z2512. It is preferable that this nickel powder has ...
|
WO/2021/228435A1 |
The present invention relates to a grounding element (10) for electrically grounding an electrical installation component, wherein the grounding element has a steel sheet component that is provided with a coating. According to the invent...
|