All solid state battery

What is claimed is: 1. An all solid state battery comprising an electrode and a solid electrolyte layer, the electrode includes a current collector, an electron conductive layer, and an active material layer, in this order, the solid electrolyte layer formed on the active material layer side of the electrode, the electron conductive layer is an agglutinate of metal particles, electron conductivity of the electron conductive layer is 1×10 3 S/cm or more at 25° C., the active material layer comprises an active material and an inorganic solid electrolyte, and the solid electrolyte layer comprises an inorganic solid electrolyte, and the electrode is obtained by a method comprising steps of: a first stack forming step of obtaining a first stack by placing the metal particles on the active material layer, a second stack forming step of obtaining a second stack including the electron conductive layer by hot pressing the first stack, and a current collector placing step of obtaining the electrode by placing the current collector on the electron conductive layer of the second stack, wherein the first stack is formed by coating the active material layer with a slurry including metal particles in the first stacking step, and the metal particles are plastically deformed in the second stack forming step. 2. The all solid state battery according to claim 1 , wherein the first stack is pressed by a hot roll press with a line pressure of 3 ton/cm or more in the second stack forming step. 3. The all solid state battery according to claim 1 , wherein the electron conductivity of the electron conductive layer is 2.1×10 4 S/cm or more at 25° C. 4. The all solid state battery according to claim 1 , wherein the agglutinate includes a binder. 5. The all solid state battery according to claim 1 , wherein material of the metal particles comprises Fe, Ni, or Al, or an alloy including at least one kind of these elements. 6. The all solid state battery according to claim 1 , wherein an adhesive layer is formed partially between the current collector and the electron conductive layer. 7. The all solid state battery according to claim 1 , wherein the electron conductive layer is the agglutinate of the metal particles, the agglutinate includes a binder, and the proportion of the metal particles, to the total of the metal particles and the binder, is 90 vol % or more. 8. The all solid state battery according to claim 1 , wherein the electron conductive layer does not include a binder. 9. The all solid state battery according to claim 1 , wherein a material of the metal particles comprises Fe, Ni, or Al, or an alloy including at least one kind of these elements, the agglutinate includes a binder, and the proportion of the metal particles, to the total of the metal particles and the binder, is 90 vol % or more. 10. The all solid state battery according to claim 1 , wherein the metal particles are Ni particles, the agglutinate includes a binder, and the proportion of the Ni particles, to the total of the Ni particles and the binder, is 90 vol % or more and 95 vol % or less.