Almacenamiento en baterías

Batteriegehäusekomponente aufweisend eine elektromagnetisch isolierende Schicht, Traktionsbatteriegehäuse, Traktionsbatterie, Kraftfahrzeug, Formwerkzeug zur Herstellung einer Batteriegehäusekomponente und Verfahren zur Herstellung einer Batteriegehäusekomponente

Resumen de: DE102024127919A1

Die Erfindung betrifft Batteriegehäusekomponente (1), aufweisend eine einen Kunststoff aufweisende Gehäusewand (10) und eine elektromagnetisch isolierende Schicht (20), wobei die Gehäusewand (10) einen ersten Abschnitt (11) aufweist, in dem die Gehäusewand (10) die elektromagnetisch isolierende Schicht (20) derart umgibt, dass die elektromagnetisch isolierende Schicht (20) im ersten Abschnitt (11) der Gehäusewand (10) nicht zugänglich ist, und wobei die Gehäusewand (10) einen zweiten Abschnitt (12) aufweist, in dem die elektromagnetisch isolierende Schicht (20) an einer ersten Seite (14) der Gehäusewand (10) angeordnet ist, sodass die Gehäusewand (10) in dessen zweiten Abschnitt (12) eine elektrisch leitfähige Kontaktfläche (16) aufweist, an welcher die elektromagnetisch isolierende Schicht (20) unmittelbar zugänglich ist, wobei im Bereich des zweiten Abschnitts (12) der Gehäusewand (10) ein Durchdringungsschutz (30) zwischen der Gehäusewand (10) und der elektromagnetisch isolierenden Schicht (20) angeordnet ist.

ASSEMBLY FOR A BATTERY OF AN ELECTRIC VEHICLE, SAID ASSEMBLY FOR A BATTERY COMPRISING A CHAMBER FOR THE CIRCULATION OF A HEAT-TRANSFER FLUID

Resumen de: WO2026062354A1

The invention relates to an assembly (100) for a battery of an electric vehicle, which assembly comprises: - a support device (101) defining a metal chamber (102) intended to receive a heat-transfer fluid (10), the metal chamber (102) comprising an inlet (103) and an outlet (104) intended for the circulation of the heat-transfer fluid (10) through the metal chamber (102); - battery cells (105) each comprising a rigid outer casing (106), the battery cells (105) each being sealingly mounted to the metal chamber (102) such that they each have a first portion (107) extending inside the metal chamber (102) and a second portion (108) extending outside the metal chamber (102).

BATTERY COMPRISING A POLYMER CONTAINING DISULFIDE BONDS

Resumen de: WO2026062351A1

The present invention relates to the use, in a Li-ion secondary battery, of an amorphous polymer P1 comprising at least one -(S-R-S)-(S-R-S)- segment.

ASSEMBLY HAVING AT LEAST A FIRST ELEMENT AND A SECOND ELEMENT

Resumen de: WO2026061707A1

Proposed is an assembly (1) having at least a first element (2) and a second element (3) which are interconnectable by means of at least one latching element (6), the latching element (6) comprising the following: - two spring legs (7) which are connected to the first element (2) and which are interconnected via a bridge (9), the bridge (9) extending in a first spatial direction and the spring legs (7) allowing a deflection movement of the bridge (9) in a second spatial direction perpendicular to the first spatial direction, and - at least one projection (10) which protrudes from the bridge (9) in the second spatial direction and which can be engaged with a recess in the second element (3) in order to latch the first element (2) to the second element (3), with the bridge (9) being deflected in the second spatial direction.

SOLID ELECTROLYTE FOR NA-ION AND K-ION BATTERY

Resumen de: WO2026062349A1

The invention relates to a solid electrolyte composition which can be used to manufacture a film offering a very good compromise between ion conductivity, electrochemical stability, high-temperature stability and mechanical strength. This composition can be used in a separator or an electrode of Na-ion or K-ion batteries.

A CURRENT COLLECTOR, BATTERY CELL AND METHOD OF MANUFACTURING A CURRENT COLLECTOR

Resumen de: WO2026062165A1

A current collector (200) for connecting an electrode tab (108) of an electrode assembly (106) to an electrode terminal (104) of a case (102) in which the electrode assembly (106) is received. The current collector (200) comprises a tab part (202) configured to be welded to the electrode tab (108) and extending in a first plane; a terminal part (204) configured to be connected to the electrode terminal (104) and extending in a second plane perpendicular to the first plane; and a connection part (206) connecting the tab part (202) to the terminal part (204) to provide a first current path (Cl) between the electrode tab (108) and the electrode terminal (104), the connection part (206) extending in a third plane perpendicular to both the first plane and the second plane. The tab part (202) comprises a first weld region (212) and the terminal part (204) comprises a second weld region (214), the first and second weld regions (212, 214) welded together to provide a second current path (C2) between the electrode tab (108) and the electrode terminal (104).

ELECTROLYTE ADDITIVE FOR NATURAL GRAPHITE ANODE

Resumen de: WO2026062161A1

The disclosure relates to a cell comprising natural graphite and an electrolyte additive. Natural graphite has higher surface functionality and thus reactivity with electrolyte than artificial graphite. This means that anode active material comprising natural graphite will typically degrade faster than the synthetic variant. It has surprisingly been found than the addition of a specific group of electrolyte additives improves the stability of a cell comprising large amounts of natural graphite as anode active material.

COOLING DEVICE FOR A HIGH-VOLTAGE BATTERY AND METHOD FOR DETECTING THE INGRESS OF WATER

Resumen de: WO2026061701A1

The invention relates to a cooling device for a high-voltage battery comprising an external cooling circuit (7) operated with cooling water. The cooling device according to the invention is characterized in that the cooling circuit (7) is coupled via a heat exchanger (6) to a battery-internal cooling circuit (1) operated with a dielectric, wherein a hydrogen sensor (8) is provided in the high-voltage battery. The ingress of water is inferred starting from a critical hydrogen concentration at the hydrogen sensor (8).

ELECTRIC ENERGY STORAGE DEVICE

Resumen de: WO2026062197A1

The invention relates to an electric energy storage device for a vehicle, comprising a housing in which a plurality of electrically interconnected individual cells are provided. According to the invention, at least one temperature-control element (2) and/or at least one temperature-control structure (3) for controlling the temperature of at least a number of individual cells provided in the housing is mounted or formed on and/or in at least one housing wall (1) and/or on and/or in a housing base (5) and/or on and/or in a housing cover.

POLYCRYSTALLINE SOLID ELECTROLYTE

Resumen de: WO2026062568A1

The present invention relates to a tape of polycrystalline solid electrolyte material of the formula (I) M3-z(Mek+)fX3-z+k*f wherein the tape has a thickness that is lower or equal to 100 µm, and a length that is greater than or equal to 1 mm. The invention further concerns the preparation process of a polycrystalline solid electrolyte of formula (I) or of a tape according to the invention comprising the steps of: disposing a compound of formula (I) or an ammonium complex thereof on a substantially planar surface, heating the compound of formula (I) or the ammonium complex thereof at a temperature ranging from 290 °C to 550 °C, and concomitantly or sequentially to the heating step, applying to the compound of formula (I) a pressure that is orthogonal to the substantially planar surface, said pressure ranging from 1.5 MPa to 30 MPa.

PROTECTION PLATE CONFIGURED FOR A COOLER

Resumen de: WO2026061672A1

The invention relates to a protection plate (10) configured to be assembled in a window of a cooler, notably a cooler formed by two joined plates, this protection plate (10) comprising at least one ventilation opening (12) which is initially closed by a cap (27) connected to the periphery of the ventilation opening (12) by at least one zone of frangible material (28) so that the cap (27) can be removed from the opening in order to define an off-gassing passage (29) in the event of off-gassing from a cell (101) of a battery positioned facing the cap (27), the protection plate (10) also being fire-resistant.

THERMAL MANAGAMENT SYSTEM FOR A MOTOR VEHICLE, MOTOR VEHICLE EQUIPPED WITH SUCH A SYSTEM AND THERMAL MANAGEMENT METHOD

Resumen de: WO2026061909A1

The invention relates to a thermal management system (3) for a motor vehicle (1) comprising a storage battery (2), comprising a first thermo-fluidic circuit (4) in which a first fluid circulates and a second thermo-fluidic circuit (5) in which a second fluid circulates, a heat transfer module (6) configured to thermally couple the first thermo-fluidic circuit and the second thermo-fluidic circuit, the second thermo-fluidic circuit being configured to be thermally coupled to the storage battery. According to the invention, the management system comprises a control module (7) configured to control the flow rate of the second fluid in the second thermo-fluidic circuit as a function of a setpoint value representative of a value of thermal power to be transferred to the accumulator battery. Also proposed is a motor vehicle equipped with a storage battery and such a thermal management system. A thermal management method is also proposed.

METHOD OF PREPARING POSITIVE ELECTRODE ACTIVE MATERIAL POWDER

Resumen de: WO2026061883A1

The present disclosure provides a method for preparing a positive electrode active material powder for Li-ion rechargeable batteries, comprising: providing a first mixture of Li transition metal oxide particles with an Al-containing compound powder; milling the first mixture to obtain a first intermediate material powder; and milling the first intermediate material powder using jet mills to obtain a second intermediate material powder.

METHOD FOR PRODUCING METAL-CONTAINING HYDROXIDE OR OXYHYDROXIDE MATERIAL

Resumen de: WO2026061885A1

A method for producing a metal-containing hydroxide or oxyhydroxide particulate material, the method comprising the steps of: (a) providing a first slurry comprising ammonia and particles of hydroxide or oxyhydroxide of metals Mc; (b) reducing a level of ammonia (NH3(aq)) from at least a portion of the first slurry to obtain a seed slurry; and (c) combining the seed slurry with streams of an aqueous solution (As) containing salts of metals Ms and an aqueous solution (Bs) containing a precipitating agent, thereby obtaining a second slurry comprising particles having a layer of hydroxide or oxyhydroxide of Ms on the particles of the seed slurry, wherein the Mc=Ni1-xc-yc-zcMnxcCoycAzc with 0≤xc≤0.85, 0≤yc≤0.35, 0≤zc<0.1, and 0.15≤1-xc-yc-zc≤1; and wherein the Ms=Ni1-xs-ys-zsMnxsCoysAzs with 0.55≤xs≤0.85, 0≤ys≤0.35, 0≤zs<0.1, and 0.15≤1-xs-ys-zs≤0.45.

BATTERY

Resumen de: US20260088339A1

Provided is a battery. The battery includes an electrolyte and a battery component in contact with the electrolyte. At least a contact surface of the battery component contacting with the electrolyte includes a stainless steel layer. The electrolyte includes a compound represented by Formula 1:

BATTERY SYSTEMS AND METHODS

Resumen de: US20260088440A1

Aspects of the present invention relate to a battery enclosure gas management system. The battery enclosure gas management system comprises a gas displacer arranged to drive venting of gas that surrounds at least one of one or more battery cells in a battery enclosure. The venting is to outside of the battery enclosure via an exit vent of the battery enclosure. The gas displacer is selectively activatable to drive the venting.

Pressing Device for a Battery Cell Stack

Resumen de: US20260088332A1

A pressing device for a battery cell stack including a plurality of battery cells. The pressing device including first and second pressure plates configured to be arranged at opposite ends of the battery cell stack. Pressure elements are fixed to the first and second pressure plates and are made from a shape memory alloy and kept at a temperature greater than the final transformation temperature of the austenitic phase of the alloy, such that the pressing device is expanded with an increase in the thickness of the battery cells and is compressed with a decrease in the thickness of the battery cells.

Thermal Runaway Suppression Element and Related Applications

Resumen de: AU2026201650A1

This invention provides a thermal runaway suppression element for lithium batteries and the related applications. The thermal runaway suppression element includes a composite salt layer provided by a eutectic mixture containing at least two single inorganic salts. The composite salt layer has a melting point between 90 to 150 ̊C. At least one of the 5 single inorganic salts comprises a cation, which is an amphoteric metal ion or an alkali metal ion. The thermal runaway suppression element is disposed inside or outside the lithium battery. When the temperature of the lithium battery reaches to 90 to 150 ̊C, the composite slat layer will be molten and reacts with the electrochemical reaction system to passivate the active materials and decrease ionic and electronic conductivity. Therefore, the 10 thermal runaway event and its derived problem are efficiently solved. ar a r

Solid-state battery

Resumen de: AU2025226872A1

SOLID-STATE BATTERY A solid-state battery has a first collector, a first electrode layer, an electrolyte layer, a second electrode layer and a second collector in that order, wherein the first collector includes a resin layer that contacts the first electrode layer, the first electrode layer contains an electrode active material, and the electrode active material has an active material resin. SOLID-STATE BATTERY A solid-state battery has a first collector, a first electrode layer, an electrolyte layer, a second electrode layer and a second collector in that order, wherein the first collector includes a resin layer that contacts the first electrode layer, the first electrode layer contains an electrode active material, and the electrode active material has an active material resin. ep - e p

ELECTRICAL CELL MODULE, AND A METHOD OF ASSEMBLING AN ELECTRICAL CELL MODULE

Resumen de: AU2025226767A1

ELECTRICAL CELL MODULE, AND A METHOD OF ASSEMBLING AN ELECTRICAL CELL MODULE The invention relates to an electrical cell module comprising: an opposing pair of module end plates spaced apart along a longitudinal axis; a first cell stack; and a second cell stack. Each cell stack comprises: a series of cells stacked along the longitudinal axis, and a pair of stack end plates at opposing ends and configured to be fixed to one another in an assembled position to apply to the series of cells a compressive force along the longitudinal axis, and define a stack length. The compressive forces are within a predetermined operable range. Each opposing pair of module end plates is fixedly engaged, in a use position, with one corresponding stack end plate of each cell stack so the module end plates are spaced apart from one another along the longitudinal axis by a predetermined distance, and the first stack length is different to the second stack length. FIG. 4 ELECTRICAL CELL MODULE, AND A METHOD OF ASSEMBLING AN ELECTRICAL CELL MODULE The invention relates to an electrical cell module comprising: an opposing pair of module end plates spaced apart along a longitudinal axis; a first cell stack; and a second cell stack. Each cell stack comprises: a series of cells stacked along the longitudinal axis, and a pair of stack end plates at opposing ends and configured to be fixed to one another in an assembled position to apply to the series of cells a compressive force along the longitudinal axi

CATHODE MATERIAL, CATHODE, AND BATTERY

Resumen de: US20260088344A1

A cathode material of the present disclosure includes a cathode active material, a coating layer containing a first solid electrolyte, and coating at least part of a surface of the cathode active material, and a second solid electrolyte. The first solid electrolyte contains Li, Al, and X, and does not contain Ti. X is at least one selected from the group consisting of F, Cl, Br, and I. The ratio of the volume of the first solid electrolyte to the total volume of the first solid electrolyte and the second solid electrolyte is greater than or equal to 5.1% and less than or equal to 12.0%.

BATTERY PACKAGE AND BATTERY MODULE

Resumen de: US20260088335A1

To realize easy checking of a connection state. A receiving portion is located on a frame portion or an insulation substrate, and a conductive metal plate is located on an opening side of a recessed portion. The conductive metal plate includes a connecting portion configured to electrically connect to a second electrode from above and a locking portion configured to lock to the receiving portion. A lid is electrically insulated from the conductive metal plate.

LITHIUM ION BATTERY

Resumen de: US20260088338A1

A lithium ion battery (100) of the invention includes a battery main body (50) which includes one or more power generation elements configured by laminating a positive electrode layer (1) including a positive electrode active material layer (2) and a positive electrode current collector (3), an electrolyte layer including a separator (20) and an electrolytic solution, and a negative electrode layer (6) including a negative electrode active material layer (7) and a negative electrode current collector (8), in this order, an outer package (30) in which the battery main body (50) is sealed, a positive electrode terminal (11) which is electrically connected to the positive electrode current collector (3) and at least a part of which is exposed to the outside of the outer package (30), and a negative electrode terminal (16) which is electrically connected to the negative electrode current collector (8) and a part of which is exposed to an outside of the outer package (30). In the lithium ion battery (100) of the embodiment, an end portion (5) on an outer side of the negative electrode current collector (8) and an end portion (17) on an inner side of the negative electrode terminal (16) are joined with each other, and the lithium ion battery includes a first non-joint portion (21) which is not joined with the negative electrode terminal (16), on a most distal end portion (5A) on the outer side of the negative electrode current collector (8). In addition, in the lithium ion battery

APPARATUS AND METHOD FOR MANUFACTURING BATTERY

Resumen de: US20260088333A1

A battery manufacturing apparatus and a battery manufacturing method are disclosed. A battery manufacturing apparatus includes a base, a mold including a mold body movably arranged on the base and a shape determination body inserted in the mold body, and an adjuster which is fixed to the base and configured to come into contact with the mold body to move the mold body.

CHARGE AND DISCHARGE CONTROL METHOD FOR CHARGE AND DISCHARGE ELEMENT, AND CHARGE AND DISCHARGE CONTROL DEVICE FOR CHARGE AND DISCHARGE ELEMENT

Nº publicación: US20260088376A1 26/03/2026

Solicitante:

NISSAN MOTOR CO LTD [JP]
NISSAN MOTOR CO., LTD

Resumen de: US20260088376A1

A charge and discharge control method for a charge and discharge element is performed every control cycle from a start time. Electric energy consumption is measured by integrating electric power consumption of a group including one or more charge and discharge elements, as a whole, from the start time to a control time at which one or more control cycles have elapsed. Target electric energy is acquired by integrating target electric power predetermined for the group as a whole from the start time to the control time. A command value is determined based on an average electric energy, which is obtained by dividing an energy difference electric obtained by subtracting the electric energy consumption from the target electric energy. The one or more charge and discharge elements autonomously control their own charge and discharge electric power based on the command value.