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162results about "Electrolye immobilisation" patented technology

Electrochemical device separator structures with barrier layer on non-swelling membrane

InactiveUS7070632B1Avoid harmful reactionsElectrode carriers/collectorsSolid electrolyte cellsElectrochemistryFluid electrolytes
Disclosed are electrochemical device separator structures which include a substantially impervious active metal ion conducting barrier layer material, such as an ion conducting glass, is formed on an active metal ion conducting membrane in which elongation due to swelling on contact with liquid electrolyte is constrained in at least two of three orthogonal dimensions of the membrane. The non-swelling character of the membrane prevents elongation in the x-y (or lateral, relative to the layers of the composite) orthogonal dimensions of the membrane when it is contacted with liquid electrolyte that would otherwise cause the barrier layer to rupture. Substantial swelling of the membrane, if any, is limited to the z (or vertical, relative to the layers of the composite) dimension.
Electrochemical device separator structures with barrier layer on non-swelling membrane
Electrochemical device separator structures with barrier layer on non-swelling membrane
Electrochemical device separator structures with barrier layer on non-swelling membrane
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Owner:POLYPLUS BATTERY CO INC

Li/air non-aqueous batteries

ActiveUS20070117007A1Improve battery performanceLarge capacityFuel and primary cellsFuel and secondary cellsLithiumOxygen
Non-aqueous alkali metal (e.g., Li) / oxygen battery cells constructed with a protected anode that minimizes anode degradation and maximizes cathode performance by enabling the use of cathode performance enhancing solvents in the catholyte have negligible self-discharge and high deliverable capacity. In particular, protected lithium-oxygen batteries with non-aqueous catholytes have this improved performance.
Li/air non-aqueous batteries
Li/air non-aqueous batteries
Li/air non-aqueous batteries
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Owner:POLYPLUS BATTERY CO INC

Electrolyte composition, photoelectric conversion device and photo-electrochemical cell

InactiveUS6376765B1Improve rendering capabilitiesIncreased durabilityLight-sensitive devicesOrganic chemistryPhotoelectrochemical cellHydrogen atom
Electrolyte composition, photoelectric conversion device and photo-electrochemical cell
Electrolyte composition, photoelectric conversion device and photo-electrochemical cell
Electrolyte composition, photoelectric conversion device and photo-electrochemical cell
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Owner:FUJIFILM HLDG CORP +1

Ionically conductive composites for protection of active metal anodes

ActiveUS7282302B2Good chemical stabilityImprove ionic conductivitySolid electrolytesCell seperators/membranes/diaphragms/spacersChemical stabilityBattery cell
Disclosed are ionically conductive composites for protection of active metal anodes and methods for their fabrication. The composites may be incorporated in active metal negative electrode (anode) structures and battery cells. In accordance with the invention, the properties of different ionic conductors are combined in a composite material that has the desired properties of high overall ionic conductivity and chemical stability towards the anode, the cathode and ambient conditions encountered in battery manufacturing. The composite is capable of protecting an active metal anode from deleterious reaction with other battery components or ambient conditions while providing a high level of ionic conductivity to facilitate manufacture and / or enhance performance of a battery cell in which the composite is incorporated.
Ionically conductive composites for protection of active metal anodes
Ionically conductive composites for protection of active metal anodes
Ionically conductive composites for protection of active metal anodes
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Owner:POLYPLUS BATTERY CO INC

Electrochemical device using multicomponent composite membrane film

InactiveUS7014948B2Easy to manufactureImprove adhesionMembranesSemi-permeable membranesPolymer scienceElectrochemistry
The present invention provides a electrochemical element, wherein a multi-component composite film comprising a) polymer support layer film and b) a porous gellable polymer layer which is formed on either or both sides of the support layer film of a), wherein the support layer film of a) and the gellable polymer layer of b) are unified with each other without an interface between them.
Electrochemical device using multicomponent composite membrane film
Electrochemical device using multicomponent composite membrane film
Electrochemical device using multicomponent composite membrane film
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Owner:TORAY BATTERY SEPARATOR FILM +1

Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor

InactiveUS20020102464A1Large capacityWide operating temperature rangeNon-metal conductorsHybrid capacitor electrolytesPolymer capacitorCapacitance
A polymer gel electrolyte includes an electrolyte solution composed of a plasticizer with at least two carbonate structures on the molecule and an electrolyte salt, in combination with a matrix polymer. Secondary batteries made with the polymer gel electrolyte can operate at a high capacitance and a high current, have a broad service temperature range and a high level of safety, and are thus particularly well-suited for use in such applications as lithium secondary cells and lithium ion secondary cells. Electrical double-layer capacitors made with the polymer gel electrolyte have a high output voltage, a large output current, a broad service temperature range and excellent safety.
Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor
Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor
Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor
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Owner:NISSHINBO IND INC

Ambient temperature, rechargeable cells with metal salt-based electrodes and a system of cell component materials for use therein

InactiveUS6187479B1Improve battery performanceImprove performanceLead-acid accumulatorsNon-aqueous electrolyte cellsHalogenRechargeable cell
A rechargeable battery or cell is disclosed in which the electrode active material consists of at least one nonmetallic compound or salt of the electropositive species on which the cell is based, and the electrolyte or electrolyte solvent consists predominantly of a halogen-bearing or chalcogen-bearing covalent compound such as SOCl2 or SO2Cl2. Also disclosed are cell component materials which include electrodes that consist primarily of salts of the cell electropositive species and chemically compatible electrolytes. These latter electrolytes include several newly discovered ambient temperature molten salt systems based on the AlCl3-PCl5 binary and the AlCl3-PCl5-PCl3 ternaries.
Ambient temperature, rechargeable cells with metal salt-based electrodes and a system of cell component materials for use therein
Ambient temperature, rechargeable cells with metal salt-based electrodes and a system of cell component materials for use therein
Ambient temperature, rechargeable cells with metal salt-based electrodes and a system of cell component materials for use therein
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Owner:LIU CHANGLE

Bipolar battery

ActiveUS7163765B2Liquid junctionFinal product manufactureElectrode carriers/collectorsEngineeringCurrent collector
A bipolar battery comprises a bipolar electrode in which a positive electrode is provided on one surface of a collector and a negative electrode is provided on the other surface of the collector, a gel electrolyte sandwiched between the positive electrode and the negative electrode, and a sealing layer which is provided between the collectors and surrounds a periphery of a single cell including the positive electrode, the negative electrode, and the gel electrolyte.
Bipolar battery
Bipolar battery
Bipolar battery
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Owner:NISSAN MOTOR CO LTD

Flexible thin printed battery and device and method of manufacturing same

ActiveUS7348096B2Eliminate needFinal product manufactureElectrode carriers/collectorsElectrical batteryEngineering
A flat, flexible electrochemical cell is provided. The within invention describes various aspects of the flat, flexible electrochemical cell. A printed anode is provided that obviates the need for a discrete anode current collector, thereby reducing the size of the battery. An advantageous electrolyte is provided that enables the use of a metallic cathode current collector, thereby improving the performance of the battery. Printable gelled electrolytes and separators are provided, enabling the construction of both co-facial and co-planar batteries. Cell contacts are provided that reduce the potential for electrolyte creepage in the flat, flexible electrochemical cells of the within invention.
Flexible thin printed battery and device and method of manufacturing same
Flexible thin printed battery and device and method of manufacturing same
Flexible thin printed battery and device and method of manufacturing same
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Owner:ENERGIZER BRANDS

Thin layer electrochemical cell with self-formed separator

InactiveUS7335441B2Enhanced interactionReduce in quantityFinal product manufactureElectrode carriers/collectorsSelf formingThin layer
A method of forming an electrochemical cell is disclosed. The method comprises contacting a negative pole layer and a positive pole layer one with the other or with an optional layer interposed therebetween. The pole layers and the optional layer therebetween are selected so as to self-form an interfacial separator layer between the pole layers upon such contacting.
Thin layer electrochemical cell with self-formed separator
Thin layer electrochemical cell with self-formed separator
Thin layer electrochemical cell with self-formed separator
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Owner:POWER PAPER

Nano-engineered coatings for anode active materials, cathode active materials, and solid-state electrolytes and methods of making batteries containing nano-engineered coatings

ActiveCN107851840ALower resistanceIncrease choice flexibilitySolid electrolytesCell electrodesSolid state electrolyteSolid-state battery
The present disclosure relates to a nano-engineered coating for cathode active materials, anode active materials, and solid state electrolyte materials for reducing corrosion and enhancing cycle lifeof a battery, and processes for applying the disclosed coating. Also disclosed is a solid state battery including a solid electrolyte layer having a solid electrolyte particle coated by a protective coating with a thickness of 100 nm or less. The protective coating is obtained by atomic layer deposition (ALD) or molecular layer deposition (MLD). Further disclosed is a solid electrolyte layer for asolid state battery, including a porous scaffold coated by a first, solid electrolyte coating. The solid electrolyte coating has a thickness of 60 mu m or less and a weight loading of at least 20 wt.% (or preferable at least 40 wt.% or at least 50 wt.%). Further disclosed is a cathode composite layer for a solid state battery.
Nano-engineered coatings for anode active materials, cathode active materials, and solid-state electrolytes and methods of making batteries containing nano-engineered coatings
Nano-engineered coatings for anode active materials, cathode active materials, and solid-state electrolytes and methods of making batteries containing nano-engineered coatings
Nano-engineered coatings for anode active materials, cathode active materials, and solid-state electrolytes and methods of making batteries containing nano-engineered coatings
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Owner:PNEUMATICOAT TECH LLC

Thin layer electrochemical cell with self-formed separator

InactiveUS7022431B2Reduce manufacturing stepsIncrease contactFinal product manufactureElectrode carriers/collectorsSelf formingThin layer
A method of forming an electrochemical cell is disclosed. The method comprises contacting a negative pole layer and a positive pole layer one with the other or with an optional layer interposed therebetween. The pole layers and the optional layer therebetween are selected so as to self-form an interfacial separator layer between the pole layers upon such contacting.
Thin layer electrochemical cell with self-formed separator
Thin layer electrochemical cell with self-formed separator
Thin layer electrochemical cell with self-formed separator
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Owner:POWER PAPER

Method of making polymer electrolyte electrochemical cells

InactiveUS6852138B1Reduce contentEasy temperatureElectrode carriers/collectorsOrganic electrolyte cellsPolymer electrolytesHexafluoropropylene
The invention relates to a method for the preparation of a polymer electrolyte electrochemical cell using an electrolyte precursor, said precursor comprising one or more solvents, one or more salts and a polymer which dissolves in the solvent at a first temperature (Tdissol) and which is capable of forming a gel on subsequent cooling following heating to a second temperature (Tgel). Tdissol being lower than Tgel, which method comprises: (a) heating the electrolyte precursor to Tdissol; (b) optionally cooling the electrolyte precursor, (c) incorporating the electrolyte precursor into the electrochemical cell; (d) heating the electrochemical cell to Tgel; (e) cooling the polymer electrochemical cell to ambient temperature to bring about gelling of the polymer electrolyte. Preferably the polymer is a homopolymer or copolymer from the group of monomers of vinyl fluoride, vinylidenefluoride, trifluoroethylene, tetrafluoroethylene and hexafluoropropylene.
Owner:DANIONICS ASIA

All-solid-state primary film battery and method of manufacturing the same

InactiveUS20070037060A1Minimizes metal usageReduce weightSolid electrolytesFinal product manufactureAll solid statePolymer electrolytes
Provided are an all-solid state primary film battery, and a method of manufacturing the same. The all-solid state primary film battery includes: a first polymer current collector film including a first polymer film and a first conductive layer; a first electrode layer formed on the first conductive layer; a second polymer current collector film that includes a second polymer film and a second conductive layer; a second electrode layer formed on the second conductive layer; and a polymer electrolyte layer including aqua-based electrolytic solution, and is formed between the first electrode layer and the second electrode layer.
All-solid-state primary film battery and method of manufacturing the same
All-solid-state primary film battery and method of manufacturing the same
All-solid-state primary film battery and method of manufacturing the same
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Owner:ELECTRONICS & TELECOMM RES INST

Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor

InactiveUS20050231894A1Large capacityWide operating temperature rangeNon-metal conductorsHybrid capacitor electrolytesCapacitanceLithium
A polymer gel electrolyte includes an electrolyte solution composed of a plasticizer with at least two carbonate structures on the molecule and an electrolyte salt, in combination with a matrix polymer. Secondary batteries made with the polymer gel electrolyte can operate at a high capacitance and a high current, have a broad service temperature range and a high level of safety, and are thus particularly well-suited for use in such applications as lithium secondary cells and lithium ion secondary cells. Electrical double-layer capacitors made with the polymer gel electrolyte have a high output voltage, a large output current, a broad service temperature range and excellent safety.
Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor
Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor
Polymer gel electrolyte, secondary cell, and electrical double-layer capacitor
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Owner:NISSHINBO IND INC

Batteries with permanently wet-able fine fiber separators

InactiveUS20080305389A1Alkaline accumulatorsElectrolye immobilisationFiberElectrical resistance and conductance
Alkaline batteries are disclosed that advantageously include separators comprising at least one porous layer of fine fibers having a diameter of between about 50 nm and about 3000 nm that provide improved combinations of reduced thickness, dendritic barrier against short-circuiting and low ionic resistance as compared with known battery separators. The fine fibers show improved wet-ability in the alkaline electrolytes.
Batteries with permanently wet-able fine fiber separators
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Owner:EI DU PONT DE NEMOURS & CO

Flexible thin printed battery and device and method of manufacturing same

InactiveUS20060115717A1Sufficiently conductiveEliminate needFinal product manufactureElectrode carriers/collectorsElectrical batteryEngineering
A flat, flexible electrochemical cell is provided. The within invention describes various aspects of the flat, flexible electrochemical cell. A printed anode is provided that obviates the need for a discrete anode current collector, thereby reducing the size of the battery. An advantageous electrolyte is provided that enables the use of a metallic cathode current collector, thereby improving the performance of the battery. Printable gelled electrolytes and separators are provided, enabling the construction of both co-facial and co-planar batteries. Cell contacts are provided that reduce the potential for electrolyte creepage in the flat, flexible electrochemical cells of the within invention.
Flexible thin printed battery and device and method of manufacturing same
Flexible thin printed battery and device and method of manufacturing same
Flexible thin printed battery and device and method of manufacturing same
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Owner:ENERGIZER BRANDS

Gel-type polymer electrolyte and use thereof

InactiveUS20060204854A1Improve ionic conductivityExcellent charge and discharge characteristicsLight-sensitive devicesCell electrodesPolymer electrolytesEster bond
A gel-type polymer electrolyte, wherein said polymer comprises (A) an ethylene-unsaturated carboxylic acid copolymer or a derivative thereof and (B) a polyalkylene oxide having a hydroxyl group at one terminal thereof or a derivative thereof, which are bonded together by an ester bond. The gel-type polymer electrolyte has a high ionic conductivity, and makes it possible to provides a cell which has excellent charge / discharge characteristics at low temperatures as well as at high temperatures.
Gel-type polymer electrolyte and use thereof
Gel-type polymer electrolyte and use thereof
Gel-type polymer electrolyte and use thereof
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Owner:MITSUI LTD +1

Battery with gelled electrolyte

InactiveUS7297437B2Solid electrolyte cellsElectrolye immobilisationCeriumLanthanide
Battery with gelled electrolyte
Battery with gelled electrolyte
Battery with gelled electrolyte
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Owner:PLURION LTD

Electrolytic-solution-supporting polymer film and secondary battery

InactiveUS6291106B1Improve puncture strengthAvoid it happening againCell seperators/membranes/diaphragms/spacersFinal product manufactureLithiumPolymer science
A high-strength, heat-resistant and high-safety electrolytic-solution-supporting polymer film which can be applied to secondary batteries typified by lithium and lithium ion secondary batteries and which has an ionic conductivity of at least 5x10-4 S / cm at 25° C., a puncture strength of at least 300 g and a mechanical heat resistance of at least 300° C.
Owner:TEIJIN LTD

Alkaline dry battery

InactiveUS20080171266A1Ensures anticorrosion characteristicHigh aluminum contentCell seperators/membranes/diaphragms/spacersNon-aqueous electrolyte cellsCross-linkIndium
An alkaline dry battery including a zinc negative electrode prepared by dispersing zinc alloy powder containing 0.015 wt % or less of indium and 0.008 wt % to 0.02 wt % both inclusive of aluminum into a gelled alkaline electrolyte containing 0.5 wt % to 3 wt % both inclusive of a cross-linked water-absorbing polyacrylate polymer, a separator made of a single nonwoven fabric sheet or a stack of multiple nonwoven fabric sheets and has a thickness of 360 μm to 880 μm both inclusive and a positive electrode containing manganese dioxide.
Alkaline dry battery
Alkaline dry battery
Alkaline dry battery
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Owner:PANASONIC CORP

Solid electrolyte for an electrochemical cell composed of an inorganic metal oxide network encapsulating a liquid electrolyte

InactiveUS6203949B1Cell seperators/membranes/diaphragms/spacersConductive materialSilicon dioxideFluid electrolytes
A solid polymer electrolyte for an electrochemical cell is prepared by a sol-gel process in which an active metal ion conducting liquid electrolyte, e.g. a lithium-ion electrolyte, containing a salt which is stable in the presence of water, e.g. lithium bisperfluoroethanesulfonimide, LiN(SO2C2F5)2, is admixed in aqueous solution with an alkoxide, e.g. silica alkoxide, to form a liquid precursor which is added to the electrochemical cell between the anode and cathode thereof and allowed to solidify in situ to form the solid electroyte.
Solid electrolyte for an electrochemical cell composed of an inorganic metal oxide network encapsulating a liquid electrolyte
Solid electrolyte for an electrochemical cell composed of an inorganic metal oxide network encapsulating a liquid electrolyte
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Owner:YARDNEY TECH PROD INC

Electrochemical battery using multicomponent composite membrane

InactiveCN1457517AEasy to manufactureReasonable structureMembranesSemi-permeable membranesElectrochemistryPolymer supported
Electrochemical battery using multicomponent composite membrane
Electrochemical battery using multicomponent composite membrane
Electrochemical battery using multicomponent composite membrane
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Owner:LG CHEM LTD +1

Gel electrolyte, preparation method thereof, battery using gel electrolyte and preparation method thereof

InactiveCN101807717AImprove electrical performanceImprove performanceHybrid capacitor electrolytesFinal product manufactureAdditive ingredientDouble bond
The invention discloses a gel electrolyte, a preparation method thereof, a battery using the gel electrolyte and a preparation method thereof. The gel electrolyte comprises a nonaqueous solvent and a gelator, wherein the nonaqueous solvent comprises lithium salts, and the gelator comprises polyethyleneglycol compounds with unsaturated double bonds, ester monomers with unsaturated double bonds, silane coupling agents and thermal initiators. The gel electrolyte is in double-ingredient package, wherein the weight ratio of the ingredient A and the ingredient B of the gel electrolyte is 1 / 1. The stirred uniform liquid is injected into a dried battery to be placed for 16 to 24 hours, so the gel electrolyte is sufficiently distributed inside the battery, and a gel electrolyte battery is obtained through in-situ thermal polymerization. Compared with the prior art, the invention uses a simple gel electrolyte preparation method, improves the safety performance for using the gel electrolyte battery on the premise of not changing the preparation technology and not controlling the preparation cost of the battery using the gel electrolyte, and ensures that a lithium battery has good electrochemical performance.
Gel electrolyte, preparation method thereof, battery using gel electrolyte and preparation method thereof
Gel electrolyte, preparation method thereof, battery using gel electrolyte and preparation method thereof
Gel electrolyte, preparation method thereof, battery using gel electrolyte and preparation method thereof
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Owner:BASF BATTERY MATERIALS SUZHOU

Polymer gel electrolyte and secondary cell

InactiveUS6949317B2Large capacityWide operating temperature rangeElectrolytic capacitorsElectrolye immobilisationCapacitanceLithium
Polymer gel electrolyte and secondary cell
Polymer gel electrolyte and secondary cell
Polymer gel electrolyte and secondary cell
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Owner:NISSHINBO IND INC

Open electrochemical cell, battery and functional device

InactiveUS20050181275A1Adequate level of moistureIncrease contactAlkaline accumulatorsFinal product manufactureConductive materialsElectron
An open, liquid-state electrochemical cell that can be used as a primary or rechargeable power source for various miniaturized or portable electronic devices. The cell is composed of flexible and thin layers of anode, cathode and electrolyte materials with the electrolyte layer being exposed to open air. The electrolyte with an open configuration avoids the accumulation of gases upon storage of the cell. The electrolyte includes (a) a deliquescent material for keeping the open cell wet at all times and (b) an ion conductive material for transporting ions across the electrolyte layer. The electrolyte does not include a water-soluble polymer. The invention also provides a multi-cell battery that contains cells exhibiting the above-described features. The cell or battery, along with an electronic component, may be attached to a flexible substrate to make a functional device.
Open electrochemical cell, battery and functional device
Open electrochemical cell, battery and functional device
Open electrochemical cell, battery and functional device
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Owner:JANG BOR Z

Non-aqueous electrolyte secondary battery

InactiveUS20050175891A1Suppresses shape changeDeterioration of characteristicSolid electrolytesFinal product manufactureMetal foilLithium carbonate
A non-aqueous electrolyte secondary battery has a positive electrode having a positive electrode collector, on which a positive electrode active material layer containing a positive electrode active material as a complex oxide of Li and transition metals are formed, and a negative electrode having a negative collector, on which a negative electrode active material layer is formed. The non-aqueous electrolyte secondary battery is a gel or solid non-aqueous electrolyte secondary battery having a battery device in which a positive electrode and a negative electrode are laminated with an electrolyte layer therebetween in a film-state packaging member constructed by metal foil laminated films, and containing a lithium salt, a non-aqueous solvent, and a polymer material. The concentration in mass ratio of a free acid in the electrolyte layer is 60 ppm and less. Average particle diameter of the positive electrode active material lies in a range from 10 to 22 μm, the minimum particle diameter is 5 μm or larger, the maximum particle diameter is 50 μm or smaller, and specific surface of the positive electrode active material is 0.25 m2 / g or smaller. Lithium carbonate (Li2CO3) contained in the positive electrode active material is 0.15 percent by weight and less. Moisture contained in the positive electrode active material is 300 ppm and less.
Non-aqueous electrolyte secondary battery
Non-aqueous electrolyte secondary battery
Non-aqueous electrolyte secondary battery
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Owner:SONY CORP

Lithium battery including a gel electrolyte

InactiveUS6902848B1Improve high rate discharge performanceImprove thermal stabilityOrganic electrolyte cellsSolid electrolyte cellsHigh rateLithium-ion battery
A lithium battery excellent in initial capacity, high rate discharge performance, low temperature performance and cycle life performance can be provided without the necessity of any special production step.In other words, the present invention lies in a lithium battery having a power-generating element comprising at least a positive electrode, a negative electrode and a separator wherein a gel electrolyte comprising at least a polymer and a liquid electrolyte is used in at least a part of the power-generating element, characterized in that the concentration of lithium salt in the liquid electrolyte is from 1.5 to 5 mols per l of the liquid electrolyte.
Lithium battery including a gel electrolyte
Lithium battery including a gel electrolyte
Lithium battery including a gel electrolyte
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Owner:GS YUASA CORP

Li/Air non-aqueous batteries

ActiveUS8652692B2Large capacityImprove battery lifeFuel and primary cellsSolid electrolytesLithiumOxygen
Non-aqueous alkali metal (e.g., Li) / oxygen battery cells constructed with a protected anode that minimizes anode degradation and maximizes cathode performance by enabling the use of cathode performance enhancing solvents in the catholyte have negligible self-discharge and high deliverable capacity. In particular, protected lithium-oxygen batteries with non-aqueous catholytes have this improved performance.
Li/Air non-aqueous batteries
Li/Air non-aqueous batteries
Li/Air non-aqueous batteries
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Owner:POLYPLUS BATTERY CO INC

Electrolyte composition and non-aqueous electrolyte secondary cell

InactiveUS20030013021A1Maintain good propertiesPreventing leakage and depletionSolid electrolytesNon-aqueous electrolyte accumulatorsMolten saltElectrolyte composition
An electrolyte composition excellent in charge-transporting property that can be prepared with ease, and a non-aqueous electrolyte secondary cell that comprises the electrolyte composition to exhibit excellent cell characteristics while preventing leakage or depletion of the electrolyte composition. The electrolyte composition comprises: a particular molten salt; a polymer prepared by a reaction between an electrophile having at least two unsaturated bonds polarized by an electron-withdrawing group and a nucleophile having a plurality of nucleophilic groups; and a metal salt containing a Group IA metal ion or a Group IIA metal ion.
Electrolyte composition and non-aqueous electrolyte secondary cell
Electrolyte composition and non-aqueous electrolyte secondary cell
Electrolyte composition and non-aqueous electrolyte secondary cell
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Owner:FUJIFILM CORP +1

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