Electrode composite material and method for manufacturing same

1 . A method for producing an electrode composite material, comprising: firstly mixing a raw material inclusion containing at least one kind of a lithium element, a sulfur element, and a phosphorus element, with a complexing agent, so as to form an electrolyte precursor; heating to decomplex the electrolyte precursor; and secondly mixing a decomplexed material obtained through the decomplexing, with an electrode active material. 2 . The method for producing an electrode composite material according to claim 1 , wherein the decomplexed material is at least one of an amorphous sulfide solid electrolyte and a crystalline sulfide solid electrolyte. 3 . The method for producing an electrode composite material according to claim 1 , wherein in the second mixing, a solvent that does not dissolve the decomplexed material is used. 4 . The method for producing an electrode composite material according to claim 1 , wherein the second mixing is performed with an apparatus of a pulverizer or an agitator. 5 . The method for producing an electrode composite material according to claim 4 , wherein the apparatus is a tumbling mill, a ball mill, a bead mill, or a thin film spin type high-speed mixer. 6 . The method for producing an electrode composite material according to claim 1 , wherein the raw material inclusion further contains a halogen element. 7 . The method for producing an electrode composite material according to claim 1 , wherein the method further comprises pulverizing the electrolyte precursor. 8 . The method for producing an electrode composite material according to claim 7 , wherein the electrolyte precursor to be decomplexed is an electrolyte precursor that is obtained through the formation of the electrolyte precursor, or an electrolyte precursor pulverized product that is obtained through the pulverization. 9 . An electrode composite material, comprising: a crystalline sulfide solid electrolyte having a volume based average particle diameter measured by a laser diffraction particle size distribution measuring method of 3 μm or more and a specific surface area measured by a BET method of 20 m 2 /g or more; and an electrode active material. 10 . An electrode composite material, comprising: a mixture containing a mechanically treated material of a crystalline sulfide solid electrolyte having a volume based average particle diameter measured by a laser diffraction particle size distribution measuring method of 3 μm or more and a specific surface area measured by a BET method of 20 m 2 /g or more, and an electrode active material. 11 . The electrode composite material according to claim 9 , wherein the crystalline sulfide solid electrolyte has a half-value width of the maximum peak including the background in 2θ=10 to 40° in the X-ray diffractometry using CuKα line of Δ2θ=0.75° or less. 12 . The electrode composite material according to claim 9 , wherein the crystalline sulfide solid electrolyte contains at least one kind selected from a lithium element, a sulfur element, and a phosphorus element. 13 . The electrode composite material according to claim 9 , wherein the crystalline sulfide solid electrolyte contains a lithium element, a sulfur element, a phosphorus element, and a halogen element. 14 . The electrode composite material according to claim 9 , wherein the crystalline sulfide solid electrolyte contains a thio-LISICON Region II-type crystal structure. 15 . The electrode composite material according to claim 10 , wherein the crystalline sulfide solid electrolyte has a half-value width of the maximum peak including the background in 2θ=10 to 40° in the X-ray diffractometry using CuKα line of Δ2θ=0.75° or less. 16 . The electrode composite material according to claim 10 , wherein the crystalline sulfide solid electrolyte contains at least one kind selected from a lithium element, a sulfur element, and a phosphorus element. 17 . The electrode composite material according to claim 10 , wherein the crystalline sulfide solid electrolyte contains a lithium element, a sulfur element, a phosphorus element, and a halogen element. 18 . The electrode composite material according to claim 10 , wherein the crystalline sulfide solid electrolyte contains a thio-LISICON Region II-type crystal structure.