Electrode assembly for secondary battery and method for manufacturing the same

The invention claimed is: 1. A method for manufacturing an electrode assembly for a secondary battery, the method comprising steps of: (a) applying a first electrode active material on both opposing surfaces of a first electrode sheet in first and second active regions at respective opposing first and second ends of the first electrode sheet, such that a first central non-coated portion is disposed between the first and second active regions of the first electrode sheet, and applying a second electrode active material on both opposing surfaces of a second electrode sheet in first and second active regions at respective opposing first and second ends of the second electrode sheet, such that a second central non-coated portion is disposed between the first and second active regions of the second electrode sheet; (b) folding the first central non-coated portion of the first electrode sheet to form a folded first electrode sheet, in which the first and second active regions of the first electrode sheet overlap one another at a first side of the folded first electrode sheet with the first central non-coated portion being located at a second side of the folded first electrode sheet, and folding the second central non-coated portion of the second electrode sheet to form a folded second electrode sheet, in which the first and second active regions of the second electrode sheet overlap one another at a first side of the folded second electrode sheet with the second central non-coated portion being located at a second side of the folded second electrode sheet, wherein the first side and the second side of each of the folded first and second electrode sheets oppose one another along a length dimension of the respective folded first and second electrode sheet; (c) folding a first separator two times to define an upper folded portion and a lower folded portion of the first separator; (d) forming a radical unit by fitting the folded first electrode sheet into the upper folded portion of the first separator, so as to couple the first electrode sheet to the first separator, and fitting the second electrode sheet into the lower folded portion, so as to couple the second electrode sheet to the first separator; and (e) cutting the first and second central non-coating portions of the respective first and second electrode sheets in the radical unit so as to form respective first and second electrode tabs extending outwardly from the respective folded first and second electrode sheets along the length dimension, the first and second electrode tabs being narrower in a width dimension than the respective folded first and second electrode sheets, the width dimension being orthogonal to the length dimension. 2. The method of claim 1 , wherein, in step (a), a first outer non-coated portion and a second outer non-coated portion are defined at the respective first and second ends of the first electrode sheet, such that the first and second active regions of the first electrode sheet are defined between the first central non-coated portion of the first electrode sheet and the respective first and second outer non-coated portion of the first electrode sheet; and wherein, in step (a), a first outer non-coated portion and a second outer non-coated portion are defined at the respective first and second ends of the second electrode sheet, such that the first and second active regions of the second electrode sheet are defined between the second central non-coated portion of the second electrode sheet and the respective first and second outer non-coated portion of the second electrode sheet. 3. The method of claim 1 , wherein the first and second central non-coated portions of the respective first and second electrode sheets in the radical unit extend outwardly away from the first separator without being directly coupled to either of the upper folded portion or the lower folded portion of the first separator. 4. The method of claim 1 , wherein, in step (e), the cutting of the first and second central non-coating portions comprises completely cutting the first and second central non-coating portion of the respective first and second electrode sheets in the width dimension thereof so as to divide the folded first electrode sheet into two separate first electrodes and so as to divide the folded second electrode sheet into two separate second electrodes, the first electrode tab defined by a cut portion of each of the first electrodes, and the second electrode tab defined by a cut portion of each of the second electrodes. 5. The method of claim 1 , wherein, in step (e), the cutting of the first and second central non-coating portions comprises partially cutting the first and second central non-coating portion of the respective first and second electrode sheets in the width dimension thereof to divide the folded first electrode sheet into two first electrodes joined to one another at a first seam and so as to divide the folded second electrode sheet into two second electrodes joined to one another at a second seam, the first electrode tab defined by a cut portion of each of the first electrodes, and the second electrode tab defined by a cut portion of each of the second electrodes.