Lithium ion secondary battery and a method for producing the same

What is claimed is: 1 : A lithium ion secondary battery, comprising: a stacked electrode body comprising a positive electrode, a negative electrode, and a separator interposing between the positive electrode and the negative electrode; and a third electrode used to dope Li ions into the negative electrode, wherein the stacked electrode body has a plain surface and an end surface parallel to a stacked direction of the positive electrode, the negative electrode and the separator, wherein the negative electrode comprises a negative electrode composition layer comprising a negative electrode active material at least on one surface of a negative electrode current collector, wherein the negative electrode active material includes a material S including Si, wherein assuming that 100 mass % is a total of the negative electrode active material included in the negative electrode composition layer, a content of the material S is higher than 5 mass %, wherein the positive electrode comprising a positive electrode composition layer comprising a metal oxide of Li and a metal M other than Li as a positive electrode active material, the positive electrode composition layer being arranged on at least one surface of a positive electrode current collector, wherein the third electrode is arranged in such a manner that at least a part of the third electrode is opposed to the end surface of the stacked electrode body, wherein when the lithium ion secondary battery is discharged at a discharge current rate of 0.1 C to reach a voltage reaches 2.0V, a molar ratio (Li/M) of the Li and the metal M other than Li included in the positive electrode active material is 0.8 to 1.05. 2 : The lithium ion secondary battery according to claim 1 , wherein SiO, (0.5≦x≦1.5) is included as the material S. 3 : The lithium ion secondary battery according to claim 1 , wherein the separator comprises a porous membrane (I) mainly composed of a thermoplastic resin, and a porous layer (II) mainly composed of fillers having a heat resistant temperature of 150° C. or more. 4 : A lithium ion secondary battery, comprising: a stacked electrode body comprising a positive electrode, a negative electrode, and a separator interposing between the positive electrode and the negative electrode; and third electrode used to dope Li ions into the negative electrode, wherein the stacked electrode body has a plain surface and an end surface parallel to a stacked direction of the positive electrode, the negative electrode and the separator, wherein the negative electrode comprises a negative electrode composition layer comprising a negative electrode active material at least on one surface of a negative electrode current collector, wherein the negative electrode active material includes a material S including Si, wherein assuming that 100 mass % is a total of the negative electrode active material included in the negative electrode composition layer, a content of the material S is higher than 5 mass %, wherein the positive electrode comprising a positive electrode composition layer comprising a metal oxide of Li and a metal M other than Li as a positive electrode active material, the positive electrode composition layer being arranged on at least one surface of a positive electrode current collector, wherein the third electrode comprises a Li supply source in a manner that the third electrode is arranged such that the Li supply source is opposed to the end surface of the stacked electrode body, wherein the negative electrode is doped with Li ions supplied from the Li supply source by making an electrical connection to the third electrode. 5 : The lithium ion secondary battery according to claim 4 , wherein SiO x (0.5≦x≦1.5) is included as the material S. 6 : The lithium ion secondary battery according to claim 4 , wherein the separator comprises a porous membrane (I) mainly composed of a thermoplastic resin, and a porous layer (II) mainly composed of fillers having a heat resistant temperature of 150° C. or more. 7 : A method for producing a lithium ion secondary battery, the method producing a lithium ion secondary battery comprising: a stacked electrode body comprising a positive electrode, a negative electrode, and a separator interposing between the positive electrode and the negative electrode, the negative electrode comprising a negative electrode composition layer comprising a negative electrode active material at least on one surface of a negative electrode current collector, the negative electrode active material including a material S including Si; and third electrode used to dope Li ions into the negative electrode, wherein the stacked electrode body has a plain surface and an end surface parallel to a stacked direction of the positive electrode, the negative electrode and the separator: the method comprising: providing the third electrode comprising a Li supply source in a manner that the third electrode is arranged such that the Li supply source is opposed to the end surface of the stacked electrode body, and making an electrical connection to the third electrode such that the negative electrode is doped with Li ions supplied from the Li supply source.