Method of manufacturing lithium ion conductive solid electrolyte and lithium-ion secondary battery

What is claimed is: 1. A method of manufacturing a lithium ion conductive solid electrolyte, comprising: (a) preparing an object comprising a crystalline material by heating a raw material to be dissolved, solidifying the heated raw material containing a alkali metal other than lithium to form an amorphous material, and performing a heat treatment on the solidified amorphous material, wherein the crystalline material comprises the at least one alkali metal other than lithium and an ionic conductivity at room temperature of the crystalline material is greater than or equal to 1×10 −13 S/cm; and (b) performing an ion-exchange of the at least one metal other than lithium with lithium on the object in a molten salt comprising lithium ions; wherein the crystalline material has at least one crystal structure selected from a group consisting of a mica crystal structure, a NASICON crystal structure, a β iron (III) sulfate crystal structure, a Perovskite crystal structure, a CaS(NaCl) crystal structure, a β″ alumina crystal structure, a montmorillonite substituted crystal structure, a hollandite crystal structure and a zircon crystal structure. 2. The method of manufacturing a lithium ion conductive solid electrolyte according to claim 1 , wherein the crystalline material has a crystal structure of a mica crystal structure or a NASICON crystal structure. 3. The method of manufacturing a lithium ion conductive solid electrolyte according to claim 1 , wherein the ion-exchange process is performed by retaining the object to be processed in the molten salt including lithium ions at a temperature of 200° C. to 400° C. for 24 hours to 120 hours. 4. The method of manufacturing a lithium ion conductive solid electrolyte according to claim 1 , wherein the ionic conductivity-of the object to be processed increases more than or equal to one digit before and after the step (b). 5. The method of manufacturing a lithium ion conductive solid electrolyte according to claim 1 , wherein at least a part of the amorphous material is changed to a crystalline material during the heat treatment. 6. The method of manufacturing a lithium ion conductive solid electrolyte according to claim 1 , wherein the preparing comprises two heat treatments. 7. The method of manufacturing a lithium ion conductive solid electrolyte according to claim 1 , further comprising: (c) adjusting the thickness of the object to less than or equal to 1.0 mm, before the ion exchange (b).