Photocatalyst for water splitting, production method for same, and photoelectrode for water splitting

What is claimed is: 1. A production method for a photocatalyst for water splitting, comprising: a step A of mixing barium niobium oxynitride and a cobalt compound and carrying out a heating treatment on an obtained mixture in an atmosphere in which barium niobium oxynitride is not oxidized; and further comprising, prior to the step A: a step B of mixing an oxide including a barium atom and a niobium atom and a compound which is different from the oxide, includes a barium atom, and may include a niobium atom so that a ratio (Ba molar amount/Nb molar amount) of a total molar amount (the Ba molar amount) of the barium atom derived from the oxide and the barium atom derived from the compound to a total molar amount (the Nb molar amount) of the niobium atom derived from the oxide and the niobium atom derived from the compound falls in a range of 1.3 to 4.0 and carrying out a nitriding treatment on an obtained mixture, thereby obtaining barium niobium oxynitride, wherein the photocatalyst for water splitting comprises an optical semiconductor and a promoter supported by the optical semiconductor, wherein the optical semiconductor includes said barium niobium oxynitride, and the promoter includes at least one substance selected from the group consisting of cobalt oxides and metallic cobalt. 2. The production method for the photocatalyst for water splitting according to claim 1 , wherein the compound which includes a barium atom and may include a niobium atom includes at least one substance selected from a group consisting of barium carbonate and barium nitrate. 3. A production method for a photocatalyst for water splitting, comprising: a step A of mixing barium niobium oxynitride and a cobalt compound and carrying out a heating treatment on an obtained mixture in an atmosphere in which barium niobium oxynitride is not oxidized; and further comprising, prior to the step A: a step C of forming an oxide including a barium atom and a niobium atom by means of a polymerized complex method using a compound including a barium atom, a compound including a niobium atom, and a raw material including a complexing agent; and a step D of carrying out a nitriding treatment on the oxide, thereby obtaining barium niobium oxynitride, wherein the step C is a step of forming an oxide including a barium atom and a niobium atom by carrying out a heating treatment on a mixture including a compound including a barium atom, a compound including a niobium atom, and a complexing agent, and a molar amount of the barium atom derived from the compound including a barium atom is larger than a molar amount of the niobium atom derived from the compound including a niobium atom, and wherein the photocatalyst for water splitting comprises an optical semiconductor and a promoter supported by the optical semiconductor, wherein the optical semiconductor includes said barium niobium oxynitride, and the promoter includes at least one substance selected from the group consisting of cobalt oxides and metallic cobalt. 4. A production method for a photocatalyst for water splitting, comprising: a step A of mixing barium niobium oxynitride and a cobalt compound and carrying out a heating treatment on an obtained mixture in an atmosphere in which barium niobium oxynitride is not oxidized; and further comprising, prior to the step A: a step B of mixing an oxide including a barium atom and a niobium atom and a compound which is different from the oxide, includes a barium atom, and may include a niobium atom so that a ratio (Ba molar amount/Nb molar amount) of a total molar amount (the Ba molar amount) of the barium atom derived from the oxide and the barium atom derived from the compound to a total molar amount (the Nb molar amount) of the niobium atom derived from the oxide and the niobium atom derived from the compound falls in a range of 1.3 to 4.0 and carrying out a nitriding treatment on an obtained mixture, thereby obtaining barium niobium oxynitride, wherein the photocatalyst for water splitting comprises an optical semiconductor and a promoter supported by the optical semiconductor, wherein the optical semiconductor includes said barium niobium oxynitride, and the promoter includes at least one substance selected from the group consisting of cobalt oxides and metallic cobalt, and wherein an amount of the promoter supported is in a range of 0.001 parts by mass to 20 parts by mass with respect to 100 parts by mass of the optical semiconductor. 5. The production method for the photocatalyst for water splitting according to claim 4 , wherein the compound which includes a barium atom and may include a niobium atom includes at least one substance selected from a group consisting of barium carbonate and barium nitrate. 6. A production method for a photocatalyst for water splitting, comprising: a step A of mixing barium niobium oxynitride and a cobalt compound and carrying out a heating treatment on an obtained mixture in an atmosphere in which barium niobium oxynitride is not oxidized; and further comprising, prior to the step A: a step C of forming an oxide including a barium atom and a niobium atom by means of a polymerized complex method using a compound including a barium atom, a compound including a niobium atom, and a raw material including a complexing agent; and a step D of carrying out a nitriding treatment on the oxide, thereby obtaining barium niobium oxynitride, wherein the step C is a step of forming an oxide including a barium atom and a niobium atom by carrying out a heating treatment on a mixture including a compound including a barium atom, a compound including a niobium atom, and a complexing agent, and a molar amount of the barium atom derived from the compound including a barium atom is larger than a molar amount of the niobium atom derived from the compound including a niobium atom, wherein the photocatalyst for water splitting comprises an optical semiconductor and a promoter supported by the optical semiconductor, wherein the optical semiconductor includes said barium niobium oxynitride, and the promoter includes at least one substance selected from the group consisting of cobalt oxides and metallic cobalt, and wherein an amount of the promoter supported is in a range of 0.001 parts by mass to 20 parts by mass with respect to 100 parts by mass of the optical semiconductor. 7. The production method for the photocatalyst for water splitting according to claim 1 , wherein the cobalt compound includes at least one substance selected from a group consisting of cobalt nitrate and cobaltammine complexes. 8. The production method for the photocatalyst for water splitting according to claim 2 , wherein the cobalt compound includes at least one substance selected from a group consisting of cobalt nitrate and cobaltammine complexes. 9. The production method for the photocatalyst for water splitting according to claim 3 , wherein the cobalt compound includes at least one substance selected from a group consisting of cobalt nitrate and cobaltammine complexes.