Patent ID: 8753770
Filing Date: 2014-06-17
Classification: H01M,Y02E,Y02P,Y10T

Abstract:
1. An all solid state battery using an all solid state battery element having the following constitution: (I) an electrode body comprising a bipolar electrode basic structure having: a current collector, a cathode active material layer formed on one surface of the current collector, an anode active material layer formed on a surface of the current collector and formed in a position not overlapping with the cathode active material layer in a plan view, and a current collector exposed portion, formed between the cathode active material layer and the anode active material layer, and exposing both surfaces of the current collector; (II) the current collector has: a backside cathode active material layer on a surface opposite to the surface where the cathode active material layer is formed, in a position overlapping with the cathode active material layer in a plan view; and a backside anode active material layer on a surface opposite to the surface where the anode active material layer is formed, in a position overlapping with the anode active material layer in a plan view; (III) an end cathode structure having an end cathode current collector and an end cathode active material layer formed on the end cathode current collector, and an end anode structure having an end anode current collector and an end anode active material layer formed on the end anode current collector, in which the cathode active material layer of the electrode body and the end anode active material layer of the end anode structure are connected through a solid electrolyte membrane for connecting the end anode structure, and the anode active material layer of the electrode body and the end cathode active material layer of the end cathode structure are connected through a solid electrolyte membrane for connecting the end cathode structure; (IV) the end cathode current collector of the end cathode structure has a backside end cathode active material layer on a surface opposite to a surface where the end cathode active material layer is formed, in a position overlapping with the end cathode active material layer in a plan view, and the end anode current collector of the end anode structure has a backside end anode active material layer on a surface opposite to a surface where the end anode active material layer is formed, in a position overlapping with the end anode active material layer in a plan view, in which at least one electrode surface of the all solid state battery element is provided with a solid electrolyte membrane for rolling up; and (V) the bipolar electrode basic structure by only one; wherein the all solid state battery element is in a state of being rolled up using both an outside end of the end cathode structure and an outside end of the end anode structure as starting points, an end cathode structure side roll-up region, where the backside end cathode active material layer is rolled up around the solid electrolyte membrane for rolling up so as to contact the backside anode active material layer through the solid electrolyte membrane, is formed by rolling up using the outside end of the end cathode structure as the starting point, an end anode structure side roll-up region, where the backside end anode active material layer is rolled up around the solid electrolyte membrane for rolling up so as to contact the backside cathode active material layer through the solid electrolyte membrane, is formed by rolling up using the outside end of the end anode structure as the starting point, and an equipotential region formed by the current collector exposed portion of the bipolar electrode basic structure exists between the end cathode structure side roll-up region and the end anode structure side roll-up region.