Method for producing all-solid-state lithium ion secondary battery

The invention claimed is: 1. A method for producing an all-solid-state lithium ion secondary battery comprising a cathode, an anode and a solid electrolyte layer disposed therebetween, wherein the method comprises: an anode mixture forming step of obtaining the anode mixture by drying a raw material for the anode mixture, which contains an anode active material, a solid electrolyte and an electroconductive material, and an electricity passing step of passing electricity through a laminate comprising a cathode mixture, the anode mixture and a solid electrolyte material part disposed between the cathode mixture and the anode mixture to change the cathode mixture, the anode mixture and the solid electrolyte material part into the cathode, the anode and the solid electrolyte layer, respectively; wherein the anode active material comprises at least one active material selected from the group consisting of a metal that is able to form an alloy with Li and an oxide of the metal; wherein, for the anode mixture after being dried in the anode mixture forming step, a voidage V of an inside of the anode mixture calculated by the following formula (1) is 52% or more and 54% or less: V= 100−( D 1 /D 0 )×100  Formula (1) wherein, in Formula (1), V is the voidage (%) of the inside of the dried anode mixture; D 1 is an absolute density (g/cm 3 ) of the anode mixture; and D 0 is a true density (g/cm 3 ) of the anode mixture; and wherein, a volume percentage of the electroconductive material is 2.5 volume % when a volume of the anode mixture after being dried in the anode mixture forming step is determined as 100 volume %. 2. The method for producing the all-solid-state lithium ion secondary battery according to claim 1 , wherein the anode active material comprises silicon as the metal that is able to form the alloy with Li. 3. The method for producing the all-solid-state lithium ion secondary battery according to claim 1 , wherein the solid electrolyte is a sulfide-based solid electrolyte. 4. The method for producing the all-solid-state lithium ion secondary battery according to claim 1 , wherein the electroconductive material is at least one carbonaceous material selected from the group consisting of carbon black, carbon nanotube and carbon nanofiber.