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WO/2022/249761A1 |
A method for producing a halide according to the present disclosure comprises baking, in a vacuum or in an inert gas atmosphere, a mixture material containing a powder of MOx and a powder of NH4X. M represents at least one element select...
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WO/2022/246589A1 |
A method for manufacturing a high-conductivity wire, an alloy and a new-shaped terminal electrode, which improves the conductivity of a thick-film aluminum electrode, such that the conductivity thereof is equal to or close to that of a t...
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WO/2022/249686A1 |
This solid electrolyte material includes a halide solid electrolyte. The halide solid electrolyte contains: Li; at least one element selected from the group consisting of semimetal elements and metal elements other than L1; and at least ...
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WO/2022/249759A1 |
A solid electrolyte material according to the present disclosure includes Li, M, X, H, and O. M is at least one element selected from the group consisting of Al, Ga, In, and V. X is at least one element selected from the group consisting...
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WO/2022/249762A1 |
A solid electrolyte material according to the present disclosure contains Li, M, I and X. M is at least one element that is selected from the group consisting of Al, Ga and In. X is at least one element that is selected from the group co...
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WO/2022/249666A1 |
The present invention addresses the problem of providing a resin composition having excellent alkaline resistance and a method for producing said resin composition. The present invention also addresses the problem of providing, by using ...
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WO/2022/244660A1 |
An electrolyte membrane laminate according to the present invention comprises, in the stated order, a first electrolyte membrane having a first primary surface and a second primary surface, and a first intermediate layer and a second ele...
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WO/2022/244781A1 |
The present invention addresses the problem of providing a conductive pigment paste that has excellent pigment dispersibility and storage stability even as a paste with a high pigment concentration and/or a high viscosity, and that can f...
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WO/2022/243468A1 |
A method of forming a single-ion conductive network comprising reaction of a first compound of formula (I) with a second compound and a third compound: formula (I). X is selected from the group consisting of B and Al. M+ is a cation, e.g...
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WO/2022/239799A1 |
Provided are electroconductive particles with which it is possible to increase continuity reliability between electrodes when the electrodes are electrically connected. The electroconductive particles each comprise substrate particles ...
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WO/2022/239352A2 |
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WO/2022/239738A1 |
The present invention provides: conducive particles which enable the achievement of excellent conduction characteristics; and a method for producing conducive particles. Each of conductive particles (10) according to the present inventio...
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WO/2022/238056A1 |
The present disclosure relates to an electrical contact (1) comprising a substrate (5) of an electrically conductive material, and a graphene-copper composite coating (6) on the substrate. The graphene content in the coating is within th...
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WO/2022/239806A1 |
This silver-containing paste contains: silver-containing particles; a cyanamide derivative; a solvent; and a polyfunctional compound comprising one or both of (A) an epoxy compound having two or more intramolecular epoxy groups and (B) a...
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WO/2022/239754A1 |
Provided are a sulfide solid electrolyte composition that contains a sulfide solid electrolyte and red phosphorus, that has excellent flame resistance and high ion conductivity, and that also has excellent hydrogen sulfide generation sup...
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WO/2022/239614A1 |
A sulfide solid electrolyte according to one aspect of the present invention has a crystal structure and contains, as constituent elements, one or more divalent elements A, one or more halogen elements X and an elemental nitrogen; and th...
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WO/2022/076286A9 |
The present disclosure provides compositions, articles thereof, and methods of forming compositions. In at least one aspect, a composition includes (1) an epoxy, (2) an amino or amido hardener, (3) a polyaniline, (4) a dopant selected fr...
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WO/2022/235211A1 |
Disclosed herein is a composite material comprising a crosslinked polymeric matrix, the crosslinked polymeric matrix formed from a polymeric material comprising a plurality of carboxylic acid functional groups and a plurality of liquid m...
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WO/2022/234739A1 |
Provided are: a paste for an external electrode which makes it possible to suppress swelling of a central section compared to an end section when used for coating and suppress the occurrence of voids when a film is sintered after coating...
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WO/2022/233100A1 |
Provided are a second-generation high-temperature superconducting tape (1) and a preparation method therefor. The second-generation high-temperature superconducting tape (1) comprises a superconducting tape (1) body, and a protective lay...
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WO/2022/234732A1 |
The present invention addresses the problem of providing an electroconductive resin composition that exhibits low volume resistivity and exceptional electroconductivity when formed into an electroconductive film, that can be used as a su...
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WO/2022/231672A1 |
A three-dimensional memory device includes an alternating stack of insulating layers and electrically conductive layers, memory openings vertically extending through the alternating stack, and memory opening fill structures located in th...
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WO/2022/229962A1 |
A composition comprising a plurality of micro sized core-shell particles is provided, wherein the shell comprises CNT and further comprises a surfactant, and wherein the core comprises a polymer. Further, articles derived from the compos...
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WO/2022/230635A1 |
The present invention provides: a solid electrolyte which is able to be reduced in gelation; an electrolyte composition; an electrolyte sheet; and a power storage device. This solid electrolyte (18) has a garnet structure that contains L...
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WO/2022/230686A1 |
An oxide ion-conducting solid electrolyte that comprises a mayenite-type compound having a typical composition represented by Ca12Al14O33 and 9-30 mol%, in terms of TiO2, of titanium (Ti).
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WO/2022/231472A1 |
The invention relates to thick-film microelectronics, and more particularly to technologies for use in the production of heterojunction solar cells. The technical result is that of maximally enhancing the electrical parameter values of s...
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WO/2022/227736A1 |
Disclosed in the present invention are a nano-silver paste and a preparation method therefor. The nano-silver paste in the present invention comprises nano-silver powder, micro-tin-based solder powder particles, a reducing agent, a dispe...
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WO/2022/230426A1 |
One embodiment of the present invention pertains to a lithium ion conducting oxide or an all solid battery, said lithium ion conducting oxide having a crystal structure based on LiTa2PO8, containing at least lithium, tantalum, boron, pho...
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WO/2022/227517A1 |
The present application relates to the technical field of new materials. Provided are an enhanced conductive paste and an electronic device. The enhanced conductive paste provided in the present application is composed of the following m...
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WO/2022/232548A1 |
Provided herein is an electrically conductive composition capable of sintering. More particularly, the electrically conductive composition comprises sinterable silver particles dispersed in a binder resin, which binder resin is not yet i...
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WO/2022/225287A1 |
The present invention relates to sulfide-based solid electrolyte, a preparation method thereof, and an all-solid state battery prepared therefrom. By doping a Li2S-P2S5-LiX (X is F, Cl, Br or I) or Li2S-P2S5-LiX-LiX' (X and X' are F, Cl,...
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WO/2022/224497A1 |
A solid electrolyte composition according to the present disclosure comprises a solid electrolyte containing Li, M1, O and X1, a halide containing M2 and X2, and an organic solvent. M1 is at least one element selected from the group cons...
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WO/2022/225087A1 |
The present invention provides a glass-solid electrolyte composite powder capable of reducing a sintering temperature when manufacturing a solid electrolyte through particles including solid electrolyte regions and a glass frit region, a...
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WO/2022/224506A1 |
The present disclosure comprises a positive electrode 201, a negative electrode 203, and an electrolyte layer 202 disposed between the positive electrode 201 and the negative electrode 203. The positive electrode 201 contains a positive ...
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WO/2022/219846A1 |
The solid electrolyte material according to the present disclosure comprises Li, La, O, and I. The battery 1000 according to the present disclosure is provided with a positive electrode 201, a negative electrode 203, and an electrolyte l...
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WO/2022/221244A1 |
An electromagnetic machine with encapsulation and shielding for a low pressure environment is provided, as well as a method for coating electromagnetic components of the electromagnetic machine. The electromagnetic machine comprises an e...
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WO/2022/217832A1 |
The present invention relates to the technical field of solar cells. Disclosed in the present invention are a silver paste for a heterojunction solar cell, a method for preparing the silver paste, and the application thereof. The silver ...
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WO/2022/217920A1 |
The present application relates to the technical field of advanced materials, and provides a liquid metal microcapsule, a conductive paste and a preparation method therefor, and an electronic device. The liquid metal microcapsule provide...
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WO/2022/220186A1 |
Provided are a solid electrolyte support suitable for obtaining a solid electrolyte sheet having low electrical resistance, and a solid electrolyte sheet including the same. The present invention relates to: a solid electrolyte support t...
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WO/2022/220285A1 |
A hardener comprising a pyridinium salt, wherein the pyridinium salt has a benzyl group at the 1-position and has an electron-attracting group at the 2-position, the benzyl group having an electron-donating group; an adhesive composition...
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WO/2022/219847A1 |
A solid electrolyte material according to the present disclosure comprises Li, La, O, X, and a hydride. X is at least one element selected from the group consisting of F, Cl, Br, and I. A battery 1000 according to the present disclosure ...
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WO/2022/218621A1 |
The invention relates to a metal-inside- fiber-composite including a biopolymer based fiber having a fiber wall and a void space, wherein the fiber wall envelops the void space such that the void space forms a continuous void space insid...
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WO/2022/221729A1 |
A method for synthesizing solid-state electrolytes and for synthesizing precursors for solid-state electrolytes by plasma-processing. The method comprises: (a) providing at least one precursor; (b) preparing the at least one precursor fo...
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WO/2022/215826A1 |
The present invention relates to a power cable system having a different-type conductor junction, and a power cable connection method using different-type conductors, the system and the method not applying a separate sleeve member and th...
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WO/2022/215486A1 |
The objective of the present invention is to provide: a conductive composition from which a flexible cured product having excellent conductivity and adhesiveness can be formed at a low temperature; and an electronic device using same. A ...
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WO/2022/215337A1 |
A solid electrolyte material according to the present disclosure contains Li, M, O, X and S. Meanwhile, M represents at least one element that is selected from the group consisting of Ti, Zr and Hf. X represents at least one element that...
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WO/2022/214438A1 |
Described herein are a polyamide composition and a molded article comprising such polyamide composition, such as a mobile electronic device component. The polyamide composition comprises a polyamide polymer, an electrically conductive ma...
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WO/2022/215520A1 |
The present invention is able to provide a method for producing solid electrolyte particles, the method comprising a step (1) in which solid electrolyte particles are precipitated by bringing a good solvent solution and a poor solvent in...
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WO/2022/214228A1 |
A silver sintering preparation in the form of a silver sintering paste comprising 70 to 95 wt.-% of coated silver particles (A) and 5 to 30 wt.-% of organic solvent (B) or in the form of a silver sintering preform comprising 74.5 to 100 ...
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WO/2022/210471A1 |
This solid electrolyte contains Li, P, S, a halogen, and element M (where M represents at least one element from among silicon (Si), tin (Sn), antimony (Sb), germanium (Ge), and boron (B)), the solid electrolyte including a crystal phase...
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