An electrode assembly is manufactured by a process. The electrode assembly comprises an anode sheet and an anode having improved stacking characteristics of an electrode based on a shoulder portion. The shoulder portion is solid. The shoulder portion is thicker than a conventional electrode tab and has no light reflection with the application of an active material when the electrode assembly is formed, including during notching, cutting of a single electrode, and stacking.

An electrode assembly is manufactured by a process. The electrode assembly comprises an anode sheet and an anode having improved stacking characteristics of an electrode based on a shoulder portion. The shoulder portion is solid. The shoulder portion is thicker than a conventional electrode tab and has no light reflection with the application of an active material when the electrode assembly is formed, including during notching, cutting of a single electrode, and stacking.

An electrode assembly according to an embodiment of the present invention for achieving the above object includes: a first electrode formed in the form of a single sheet and repetitively in-folded and out-folded at a predetermined interval; a second electrode provided in plurality and respectively interposed in spaces formed by folding the first electrode; a separator formed in the form of a single sheet and interposed between the first electrode and the second electrode so as to be repetitively in-folded and out-folded at a predetermined interval together with the first electrode; and a cover part configured to cover at least portions of an area, on which the separator is out-folded and an exposed surface, which is exposed to the outside together with the second electrode.

A cell of Li-ion battery comprises a plurality of anodes and cathodes of rectangular shape, each one having a current collector tab protruding from a side of the rectangular shape. Each cathode is wrapped in a separator sheet and the cathodes and anodes are stacked on each other. A Li-ion battery comprises a stack of cells and at least four bus bar posts, each bus bar post being positioned in front of one tab in order to create an electrical connection between the tab and the bus bar post. A method for disassembling the battery comprises—holding the anode bus bar posts, and simultaneously pulling the cathode bus bar posts in the direction of the cathode tab protrusions, pulling the anode bus bar posts in the direction of the anode tab protrusions, separating the cathodes from the separators, and separating electrodes from the bus bar posts.

A cell of Li-ion battery comprises a plurality of anodes and cathodes of rectangular shape, each one having a current collector tab protruding from a side of the rectangular shape. Each cathode is wrapped in a separator sheet and the cathodes and anodes are stacked on each other. A Li-ion battery comprises a stack of cells and at least four bus bar posts, each bus bar post being positioned in front of one tab in order to create an electrical connection between the tab and the bus bar post. A method for disassembling the battery comprises—holding the anode bus bar posts, and simultaneously pulling the cathode bus bar posts in the direction of the cathode tab protrusions, pulling the anode bus bar posts in the direction of the anode tab protrusions, separating the cathodes from the separators, and separating electrodes from the bus bar posts.

Proposed is an electrode assembly for a secondary battery, the electrode assembly includes a stacked body including a first electrode plate, a second electrode plate, and a separator interposed between the first electrode plate and the second electrode plate, and an outer periphery of the stacked body may be wound with the separator for exterior finishing. In addition, the present disclosure may include a method of manufacturing an electrode assembly for a secondary battery that is externally finished with a separator.

The present invention provides a single electrode assembly, in which a plurality of negative electrodes and positive electrodes are stacked alternately and repeatedly, and separators are disposed between the plurality of negative electrodes and positive electrodes, the electrode assembly including: a negative electrode tab part formed on one end of the electrode assembly and extending from the plurality of negative electrodes; a positive electrode bus bar spaced apart from the negative electrode tab part on the one end of the electrode assembly and electrically connecting the plurality of the positive electrodes; a positive electrode tab part formed on the other end of the electrode assembly opposite to the one end and extending from the plurality of positive electrodes; and a negative electrode bus bar spaced apart from the positive electrode tab part on the other end of the electrode assembly and electrically connecting the plurality of the negative electrodes.

A system and method for optimizing electrochemical cells including electrodes employing coordination compounds by mediating water content within a desired water content profile that includes sufficient coordinated water and reduces non-coordinated water below a desired target and with electrochemical cells including a coordination compound electrochemically active in one or more electrodes, with an improvement in electrochemical cell manufacture that relaxes standards for water content of electrochemical cells having one or more electrodes including one or more such transition metal cyanide coordination compounds.

A system and method for optimizing electrochemical cells including electrodes employing coordination compounds by mediating water content within a desired water content profile that includes sufficient coordinated water and reduces non-coordinated water below a desired target and with electrochemical cells including a coordination compound electrochemically active in one or more electrodes, with an improvement in electrochemical cell manufacture that relaxes standards for water content of electrochemical cells having one or more electrodes including one or more such transition metal cyanide coordination compounds.

An electrode assembly including a first electrode plate, a second electrode plate and a separator between the first electrode plate and the second electrode plate. The separator includes an extension portion extending to the outside of the first electrode plate and the second electrode plate in a length direction of the electrode assembly. The extension portion is provided with a glue layer including a first bonding portion extending in a width direction of the electrode assembly. The first bonding portion is parallel to the width direction.