Lithium ion rechargeable battery and process for producing the lithium ion rechargeable battery

The invention claimed is: 1. A method of manufacture of a lithium ion rechargeable battery, comprising: alternately laminating a positive electrode layer green sheet and a negative electrode layer green sheet through at least an electrolyte layer green sheet to form a multilayered product, wherein the positive electrode layer green sheet and/or the negative electrode layer green sheet is formed by mixing an active material with a conductive material, and wherein a mixing ratio of the active material with the conductive material is within a range of 20:80 to 65:35 in a volume ratio; and collectively baking the multilayered product to form a sintered multilayered product, wherein a starting material for the electrolyte layer contains at least a complex oxide of lithium and an element selected from the group consisting of Si and Ge. 2. A method of manufacture of a lithium ion rechargeable battery, comprising: dispersing at least a solid electrolyte material in a binder and a solvent to form a solid electrolyte layer paste; coating and drying the solid electrolyte layer paste to form a solid electrolyte layer green sheet; mixing an active material with a conductive material, and dispersing the materials in a binder and a solvent to form a positive electrode layer paste and/or a negative electrode layer paste; coating and drying the positive electrode layer paste and/or the negative electrode layer paste to form a positive electrode layer green sheet and/or a negative electrode layer green sheet; alternately laminating the positive electrode layer green sheet and the negative electrode layer green sheet through the solid electrolyte layer green sheet to form a multilayered product; and collectively baking the multilayered product to form a sintered multilayered product, wherein a starting material for the electrolyte layer contains at least a complex oxide of lithium and an element selected from the group consisting of Si and Ge, and wherein a mixing ratio of mixing the active material with the conductive material is within a range of 20:80 to 65:35 in a volume ratio. 3. The method of manufacture of a lithium ion rechargeable battery according to claim 1 , characterized in that a baking temperature in the baking step ranges from temperatures of 600° C. or greater to 1100° C. or below. 4. The method of manufacture of a lithium ion rechargeable battery according to claim 1 , characterized in that a baking temperature in the baking step ranges from temperatures of 800° C. or greater to 1050° C. or below. 5. The method of manufacture of a lithium ion rechargeable battery according to claim 1 , characterized in that the sintered multilayered product formed in the baking step has a positive electrode layer containing a positive active material laminated on a negative electrode layer containing a negative active material through an electrolyte layer containing a solid electrolyte, wherein a part or all of the positive electrode layer, a part or all of the negative electrode layer, and/or a part or all of the electrolyte layer contains a substance that functions as an active material or an electrolyte formed from a reaction between the positive active material and/or the negative active material and the solid electrolyte. 6. The method of manufacture of a lithium ion rechargeable battery according to claim 2 , characterized in that the sintered multilayered product formed in the baking step has a positive electrode layer containing a positive active material laminated on a negative electrode layer containing a negative active material through an electrolyte layer containing a solid electrolyte, wherein a part or all of the positive electrode layer, a part or all of the negative electrode layer, and/or a part or all of the electrolyte layer contains a substance that functions as an active material or an electrolyte formed from a reaction between the positive active material and/or the negative active material and the solid electrolyte. 7. The method of claim 1 , wherein the starting material includes at least one selected from the group consisting of lithium silicophosphate (Li 3.5 Si 0.5 P 0.5 O 4 ), phosphoric acid germanium lithium (Li 3.5 Ge 0.5 P 0.5 O 4 ), Li 2 O—SiO 2 , Li 2 O—V 2 O 5 —SiO 2 , and Li 2 O—GeO 2 . 8. The method of claim 2 , wherein the starting material includes at least one selected from the group consisting of lithium silicophosphate (Li 3.5 Si 0.5 P 0.5 O 4 ), phosphoric acid germanium lithium (Li 3.5 Ge 0.5 P 0.5 O 4 ), Li 2 O—SiO 2 , Li 2 O—V 2 O 5 —SiO 2 , and Li 2 O—GeO 2 . 9. The method of claim 1 , wherein the multilayered product is collectively baked so that the sintered multilayered product that is formed has a voidage of 0% or greater to 10% or below. 10. The method of claim 2 , wherein the multilayered product is collectively baked so that the sintered multilayered product that is formed has a voidage of 0% or greater to 10% or below.