Method for manufacturing electrode for secondary battery and method for manufacturing secondary battery

The invention claimed is: 1. A method for manufacturing an electrode used as a positive electrode and a negative electrode of a secondary battery, the method comprising; applying a slurry for a first layer to a surface of current collector; applying a slurry for a second layer to the slurry for the first layer before the slurry for the first layer is dried; and drying the slurries for the first layer and the second layer after applying the slurries for the first layer and the second layer to obtain a laminated structure in which the first layer and the second layer are laminated in this order on the current collector; wherein a molecular weight of a first binder or thickener used in the slurry for the first layer is larger than that of a second binder or thickener used in the slurry for the second layer, and wherein the first layer is an active material layer and the second layer is an insulating layer. 2. A method for manufacturing an electrode used as a positive electrode and a negative electrode of a secondary battery, the method comprising: applying a slurry for a first layer to a surface of a current collector; applying a slurry for a second layer to the slurry for the first layer before the slurry for the first layer is dried; and drying the slurries for the first layer and the second layer after applying the slurries for the first layer and the second layer to obtain a laminated structure in which the first layer and the second layer are laminated in this order on the current collector; wherein a first binder or thickener for the slurry for the first layer and a second binder or thickener for the slurry for the second layer are selected such that when viscosities are measured for a first solution including solvent and the first binder or thickener dissolved in the solvent in a specific mass ratio and a second solution including a solvent and the second binder or thickener dissolved in the solvent at the same mass ratio as the mass ratio of the first binder or thickener under the same conditions, the viscosity of the first solution is higher than the viscosity of the second solution, and wherein the first layer is an active material layer and the second layer is an insulating layer. 3. The method for manufacturing the electrode for the secondary battery according to claim 2 , wherein the viscosities of the slurry for the first layer and the slurry for the second layer are such that the viscosity of the slurry for the first layer is 12000 mPas or more and/or the viscosity of the second layer slurry is 4000 mPas more when measured at a shear rate of 1/sec at 25° C. 4. The method for manufacturing the electrode for the secondary battery according to claim 2 , wherein the viscosity of the slurry for the second layer is 4000 mPas or more and the viscosity of the slurry for the first layer is 5000 mPas or more. 5. The method for manufacturing the electrode for the secondary battery according to claim 3 , wherein the viscosities of the slurries for the first layer and the second layer are 50000 mPas or more and 200000 mPas or less. 6. The method for manufacturing the electrode for the secondary battery according to claim 2 , wherein the slurry for the first layer and/or the slurry for the second layer has a viscosity such that the viscosity measured at a shear rate of 5/sec at 25° C. is not more than half of the viscosity measured at a shear rate of 1/sec at 25° C. 7. The method for manufacturing the electrode for the secondary battery according to claim 2 , wherein the slurry for the first layer and the slurry for the second layer include a main material, the binder or thickener, and the solvent. 8. The method for manufacturing the electrode for the secondary battery according to claim 7 , wherein the binders or thickeners of the slurry for the first layer and the slurry for the second layer have the same main components. 9. The method for manufacturing the electrode for the secondary battery according to claim 7 , wherein the solvents of the slurry for the first layer and the slurry for the second layer have the same main components. 10. The method for manufacturing the electrode for the secondary battery according to claim 2 , further comprising cooling at least a surface of the slurry for the first layer after applying the slurry for the first layer and before applying the slurry for the second layer. 11. The method for manufacturing the electrode for the secondary battery according to claim 2 , wherein a solid content ratio of the slurry for the second layer is 50 mass % or more. 12. The method for manufacturing the electrode for the second battery according to claim 2 , wherein the step of drying the slurries to obtain the laminated structure includes a time within 10 seconds from the completion of coating of the slurry for the second layer to the start of drying of the slurries for the first layer and the second layer. 13. The method for manufacturing the electrode for the secondary battery according to claim 2 , wherein a composition ratio of the second binder or thickener in the slurry for the second layer slurry is higher than 2 mass %. 14. A method for manufacturing a secondary battery comprising: manufacturing a positive electrode and a negative electrode by a method according to claim 2 ; arranging the positive electrode and the negative electrode so as to face each other to constitute a battery element; and enclosing the battery element together with an electrolytic solution in a casing. 15. A method for manufacturing a secondary battery comprising: manufacturing a positive electrode and a negative electrode by a method according to claim 1 ; arranging the positive electrode and the negative electrode so as to face each other to constitute a battery element; and enclosing the battery element together with an electrolytic solution in a casing.