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Results 1-10 of 130,085 for Criteria: Office(s):all Language:EN Stemming: true maximize
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TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. 20150180029 LITHIUM ION BATTERIES USING DISCRETE CARBON NANOTUBES, METHODS FOR PRODUCTION THEREOF AND PRODUCTS OBTAINED THEREFROMUS25.06.2015
H01M 4/36
14636638Molecular Rebar Design, LLCClive P. Bosnyak

Compositions, and methods of obtaining them, useful for lithium ion batteries comprising discrete oxidized carbon nanotubes having attached to their surface lithium ion active materials in the form of nanometer sized crystals or layers. The composition can further comprise graphene or oxygenated graphene.


2. 20150180044 METHOD FOR MANUFACTURING AN ELECTRODE/PROTON-EXCHANGE MEMBRANE ASSEMBLYUS25.06.2015
H01M 4/88
14411681Commissariat à I'énergie atomique et aux énergies alternativesRémi Vincent

A method for manufacturing a membrane/electrode assembly, including depositing an electrocatalyst ink on one face of a support so as to form an electrode on the support and fixedly attaching the support and the electrode formed on a proton-exchange membrane by adhesion. The method also includes withdrawing a part of the support so as to uncover at least one median part of the formed electrode.


3. 20150180043 METHOD OF MANUFACTURING FUEL CELL ANODEUS25.06.2015
H01M 4/88
14639683Hyundai Motor CompanyHoonhui Lee

Disclosed is a method of manufacturing an anode for a fuel cell. The method includes: synthesizing a fuel cell catalyst used to oxidize a fuel for the anode in an electrochemical manner; forming an electrode for the anode by use of the synthesized fuel cell catalyst; and synthesizing an electrolysis catalyst, which is used to electrolyze water, on the electrode as the electrolysis catalyst is loaded into the anode. By introducing the electrolysis catalyst on the fuel cell electrode that has already been formed, deformation of the structure of the electrode is minimized and performance of the electrode is improved.


4. 20150180042 METHODUS25.06.2015
H01M 4/88
14344380Jas Pal Singh BadyalJas Pal Singh Badyal

A method for forming a conducting nanocomposite layer on a substrate, the method comprising depositing a precursor on the substrate by plasma deposition, wherein the precursor comprises (i) a metal or metalloid centre, and (ii) one or more organic ligands, and wherein the conditions of the plasma deposition are tailored such that an organic matrix is retained in the resulting conducting nanocomposite layer.


5. 20150180041 FORMULATION OF AN ACTIVE LAYER HAVING IMPROVED PERFORMANCESUS25.06.2015
H01M 4/88
14625136Commissariat A L'Energie Atomique Et Aux Energies AlternativesJulien TARD

An active layer for a proton-exchange membrane fuel cell (PEMFC) including at least two perfluorosulfonate ionomers.


6. 20150180076 MANUFACTURING METHOD OF ALL-SOLID BATTERYUS25.06.2015
H01M 8/24
14557711TOYOTA JIDOSHA KABUSHIKI KAISHAHajime HASEGAWA

A manufacturing method of an all-solid battery includes fabricating a single battery including a positive electrode layer, a negative electrode layer, and a solid electrolyte layer arranged between the positive electrode layer and the negative electrode layer; fabricating a plurality of battery packs including the plurality of single batteries; confining a plurality of battery packs by an equal confining pressure; measuring the electrical characteristics of the plurality of confined battery packs; determining the battery pack whose measured electrical characteristics are the worst of the plurality of battery packs; reducing the confining pressures of the other battery packs so that the electrical characteristics of the other battery packs are equal to that of the battery pack whose electrical characteristics have been determined to be the worst; and electrically connecting in parallel the battery packs.


7. 20150180075 STACKED STRUCTURE FUR FUEL CELLUS25.06.2015
H01M 8/24
14405860MICO CO., LTD.Song Ho Choi

Provided is a stacked structure for a fuel cell in which the plurality of fuel cells are stacked. Each of the fuel cells includes an electrolyte layer, and a cathode layer and an anode layer disposed on both surfaces of the electrolyte layer. The stacked structure includes at least one interconnector, at least one frame, and at least one complex functional part. The interconnector includes a central area electrically connected to the fuel cell, and edge area outwardly extending with respect to end portions of the fuel cell. The frame supports a side portion of the fuel cell to reinforce strength of the fuel cell supported by the interconnector. The complex functional part is disposed between the interconnector and the frame to constantly maintain an interval therebetween.


8. 20150180074 MANIFOLD FOR REDOX FLOW BATTERY FOR REDUCING SHUNT CURRENT AND REDOX FLOW BATTERY COMPRISING SAMEUS25.06.2015
H01M 8/18
14417895KOREA INSTITUTE OF ENERGY RESEARCHChang-Soo Jin

A manifold for a redox flow battery capable of effectively suppressing a shunt current has a supply flow pathway and an exhaust flow pathway respectively formed at a left side and a right side of an anode or cathode electrode electrolyte reaction unit so as to include a U-shaped curved portion, and the U-shaped curved portion is formed to be positioned on the upper part of the top or the lower part of the bottom of the first electrode electrolyte reaction unit. When the manifold is applied to a redox flow battery, the supply flow pathway and the exhaust flow pathway having the U-shaped curved portion are formed on the upper part of the top or the lower part of the bottom of the electrode electrolyte reaction unit to prevent an electrolyte existing in the inside of a stack and a pipe from passing through the U-shaped curved portion.


9. 20150180073 ION-CONDUCTING MEMBRANEUS25.06.2015
H01M 8/10
14408168JOHNSON MATTHEY FUEL CELLS LIMITEDJonathan Charles Frost

An ion-conducting membrane includes: (i) a first ion-conducting layer including one or more first ion-conducting polymers; and (ii) a barrier layer including graphene-based platelets.


10. 20150180072 MANUFACTURE METHOD OF MEMBRANE ELECTRODE ASSEMBLY FOR FUEL CELLUS25.06.2015
H01M 8/10
14533736Hyundai Motor CompanyJae Seung Lee

A manufacturing system and method of an membrane electrode assembly (MEA) for a fuel cell is provided which increases performance and durability of an MEA and ensures productivity of the MEA therein. In particular, electrodes and an electrolyte membrane are bonded together and the membrane electrode assembly manufactured in the bonding process is pressed at a predetermined temperature.



Results 1-10 of 130,085 for Criteria: Office(s):all Language:EN Stemming: true
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