The disclosed technology relates to a looped tab for a battery cell. The looped tab may extend from a set of layers. The looped tab may comprise a first portion adjacent to the set of layers, and a second portion adjacent to an inner sidewall of the enclosure. At least a portion of the first portion and at least a portion of the second portion comprise a covered portion. The covered portion comprises a metal surface and an oxide coating covering the metal surface. The oxide coating is configured to prevent contact between a layer in the set of layers or the inner sidewall of the enclosure and the metal surface.

The disclosed technology relates to a looped tab for a battery cell. The looped tab may extend from a set of layers. The looped tab may comprise a first portion adjacent to the set of layers, and a second portion adjacent to an inner sidewall of the enclosure. At least a portion of the first portion and at least a portion of the second portion comprise a covered portion. The covered portion comprises a metal surface and an oxide coating covering the metal surface. The oxide coating is configured to prevent contact between a layer in the set of layers or the inner sidewall of the enclosure and the metal surface.

A battery is provided in which a damage on an electrode tab group is suitably inhibited. In one suitable embodiment of the battery herein disclosed, an insulating member is provided on a sealing plate. An insulation sheet arranged to cover an electrode body is joined to the insulating member, and the insulation sheet includes a sheet bottom wall, a pair of sheet first side walls that are configured to extend from the sheet bottom wall and are opposed mutually, and a pair of sheet second side walls that extend from the sheet bottom wall and are opposed mutually.

Embodiments of the application provide a battery cell, a manufacturing method and a manufacturing system therefor, a battery and an electric device. According to the embodiments of the application, the battery cell includes: an electrode assembly including a first electrode piece; a housing, configured to accommodate the electrode assembly and including an electrode lead-out portion; an adapter, configured to electrically connect the electrode lead-out portion and the first electrode piece. The first electrode piece is configured such that the first electrode piece is at least partially wound around the adapter and affixed to the adapter. The first electrode piece is wound around the adapter, such that a part of the first electrode piece can be affixed to the adapter by its own tension to ensure electrical connection between the first electrode piece and the adapter.

Embodiments of the application provide a battery cell, a manufacturing method and a manufacturing system therefor, a battery and an electric device. According to the embodiments of the application, the battery cell includes: an electrode assembly including a first electrode piece; a housing, configured to accommodate the electrode assembly and including an electrode lead-out portion; an adapter, configured to electrically connect the electrode lead-out portion and the first electrode piece. The first electrode piece is configured such that the first electrode piece is at least partially wound around the adapter and affixed to the adapter. The first electrode piece is wound around the adapter, such that a part of the first electrode piece can be affixed to the adapter by its own tension to ensure electrical connection between the first electrode piece and the adapter.

The electrical collector body of the secondary battery includes a resin layer, and metal foils that cover both surfaces of the resin layer. On the metal foils, multiple holes are formed.

Provided is a lithium battery, wherein the battery comprises an anode, a cathode, wherein the cathode comprises one or more transition metals, an electrolyte, and a porous separator interposed between the cathode and anode, wherein the separator comprises an anionic compound. Also provided are methods of manufacturing such batteries.

The disclosure relates to a technical field of batteries, and a battery and a battery apparatus are provided. The battery includes a cell, and the cell includes a cell body and tab portions. Each of the tab portions extends from one side of the cell body. The battery further includes a housing. The housing is a hollow structure, and the hollow structure is formed inside the housing. The cell is disposed in the housing, and the housing includes a first surface and a second surface opposite to each other. The first surface is provided with liquid injecting holes, and the liquid injecting holes penetrate the first surface and do not penetrate the second surface. An orthographic projection of the cell body on the first surface does not overlap the liquid injecting holes.

A laminate battery module has a plurality of laminate batteries, and a thermal expansion member. Each laminate battery has an exterior body, and an electrode body accommodated in the exterior body. The exterior body has a wide surface, and a sealing portion. The plurality of laminate batteries are arrayed sequentially so that the wide surfaces oppose each other, with an outgassing region being set in a pre-determined part of the periphery of the wide surfaces. The thermal expansion member is interposed between the wide surfaces of the plurality of laminate batteries, and protrudes in a region excluding the outgassing region. A portion of the thermal expansion member protruding in a region excluding the outgassing region expands when a pre-determined temperature is exceeded, and fills a region of the periphery of the laminate batteries, excluding the outgassing region.

A laminate battery module has a plurality of laminate batteries, and a thermal expansion member. Each laminate battery has an exterior body, and an electrode body accommodated in the exterior body. The exterior body has a wide surface, and a sealing portion. The plurality of laminate batteries are arrayed sequentially so that the wide surfaces oppose each other, with an outgassing region being set in a pre-determined part of the periphery of the wide surfaces. The thermal expansion member is interposed between the wide surfaces of the plurality of laminate batteries, and protrudes in a region excluding the outgassing region. A portion of the thermal expansion member protruding in a region excluding the outgassing region expands when a pre-determined temperature is exceeded, and fills a region of the periphery of the laminate batteries, excluding the outgassing region.