Method for producing anode for alkaline water electrolysis, and anode for alkaline water electrolysis

The invention claimed is: 1. A method for producing an anode for alkaline water electrolysis, the method comprising: dissolving lithium nitrate and a nickel carboxylate in water so as to obtain an aqueous solution comprising lithium ions and nickel ions, applying the aqueous solution to a surface of a conductive substrate, wherein at least the surface of the substrate comprises nickel or a nickel-based alloy, and subjecting the conductive substrate to which the aqueous solution has been applied to a heat treatment at a temperature within a range from 450° C. to 600° C., thereby forming a catalyst layer comprising a lithium-containing nickel oxide on the conductive substrate, wherein the lithium-containing nickel oxide is represented by a compositional formula Li x Ni 2−x O 2 , wherein x is 0.02≤x≤0.5. 2. The method for producing an anode for alkaline water electrolysis according to claim 1 , wherein a porosity of the catalyst layer is in a range of 0.29 or less. 3. The method for producing an anode for alkaline water electrolysis according to claim 1 , wherein the nickel carboxylate is nickel formate or nickel acetate or a combination thereof. 4. The method for producing an anode for alkaline water electrolysis according to claim 1 , wherein the catalyst layer has a layer average density in a range from 5.1 g/cm 3 to 6.67 g/cm 3 . 5. The method for producing an anode for alkaline water electrolysis according to claim 1 , wherein x in the compositional formula Li x Ni 2−x O 2 representing the lithium-containing nickel oxide is 0.3≤x≤0.5. 6. The anode for alkaline water electrolysis produced by the method according to claim 1 , wherein the catalyst layer has a layer average density in a range from 5.1 g/cm 3 to 6.67 g/cm 3 . 7. An anode for alkaline water electrolysis, comprising: a conductive substrate having at least a surface comprising nickel or a nickel-based alloy; and a catalyst layer comprising a lithium-containing nickel oxide represented by a compositional formula Li x Ni 2−x O 2 , wherein x is 0.3≤x≤0.5, which is formed on the conductive substrate, wherein a layer average density of the catalyst layer is in a range from 5.1 g/cm 3 to 6.67 g/cm 3 . 8. The anode for alkaline water electrolysis according to claim 7 , wherein a porosity of the catalyst layer is in a range of 0.29 or less. 9. The anode for alkaline water electrolysis according to claim 7 , wherein the lithium-containing nickel oxide is derived from lithium nitrate and a nickel carboxylate, and the nickel carboxylate is nickel formate or nickel acetate or a combination thereof. 10. The anode for alkaline water electrolysis according to claim 7 , wherein the catalyst layer has the layer average density in a range from 5.8 g/cm 3 to 6.67 g/cm 3 .