Exhaust gas purifying catalyst and method for producing same

The invention claimed is: 1. An exhaust gas purifying catalyst, comprising a ceria-based support, and a composite oxide of cobalt Co and an additive metal element M, supported on said ceria-based support, wherein said additive metal element comprises copper, wherein said composite oxide has a spinel structure, and wherein, when said composite oxide is analyzed by Rietveld analysis, compared with cobalt oxide not containing said additive metal element, the M TET -O bond distance in the spinel structure of said composite oxide is extended by 0.03 Å or more, and/or the M OCT -O bond distance in the spinel structure of said composite oxide is contracted by 0.03 Å or more. 2. The exhaust gas purifying catalyst according to claim 1 , wherein said ceria-based support is selected from the group consisting of ceria particles, ceria-zirconia composite oxide particles, ceria-alumina composite oxide particles, ceria-titania composite oxide particles, ceria-silica composite oxide particles, and ceria-zirconia-alumina composite oxide particles. 3. The exhaust gas purifying catalyst according to claim 1 , wherein a molar ratio of cobalt Co to said additive metal element M in said composite oxide is from 1:0.1 to 1:1.0. 4. The exhaust gas purifying catalyst according to claim 1 , wherein a metal-based supporting amount of cobalt is from 1 to 20 mass % relative to said ceria-based support. 5. The exhaust gas purifying catalyst according to claim 1 , wherein said composite oxide has a spinel structure, and wherein, when said composite oxide is analyzed by Rietveld analysis, compared with cobalt oxide not containing said additive metal element, the M TET -O bond distance in the spinel structure of said composite oxide is extended by 0.03 Å or more. 6. The exhaust gas purifying catalyst according to claim 1 , wherein said composite oxide has a spinel structure, and wherein, when said composite oxide is analyzed by Rietveld analysis, compared with cobalt oxide not containing said additive metal element, the M OCT -O bond distance in the spinel structure of said composite oxide is contracted by 0.03 Å or more. 7. The exhaust gas purifying catalyst according to claim 1 , wherein a cobalt-copper composite oxide is supported on said ceria-based support, and a metal-based supporting amount of copper is from 2 to 3 mass % relative to said ceria-based support. 8. The exhaust gas purifying catalyst according to claim 1 , wherein a cobalt-copper composite oxide is supported on said ceria-based support, the cobalt-copper composite oxide comprises cobalt oxide particles having an average particle diameter of 20 to 100 nm, copper oxide particles having an average particle diameter of 2 to 10 nm are supported in a dispersed manner on said cobalt oxide particles, and copper at least partially solid-dissolved in said cobalt oxide particles. 9. A method for producing the exhaust gas purifying catalyst according to claim 1 , the method comprising: providing a raw material solution containing a cobalt salt, a salt of said additive metal element, and a complexing agent, and impregnating said ceria-based support with said raw material solution, followed by drying and firing, wherein said complexing agent is an organic acid comprising at least one hydroxyl group and at least one carboxyl group. 10. The method according to claim 9 , wherein said raw material solution further contains a polyhydric alcohol, and the method further comprises: after said impregnating but before said drying and firing, heating said raw material solution. 11. A method for producing the exhaust gas purifying catalyst according to claim 1 , the method comprising: providing a raw material solution containing a cobalt salt and a salt of said additive metal element, adding a neutralizer to said raw material solution to precipitate a precursor of said composite oxide and to obtain a slurry of said precursor, impregnating said ceria-based support with said slurry, and drying and firing the ceria-based support impregnated with said slurry. 12. A method for producing the exhaust gas purifying catalyst according to claim 1 , the method comprising: preparing a cobalt salt and a copper salt at such a ratio that a metal-based supporting amount of copper is 2 to 3 mass % relative to said ceria-based support, applying a shear stress by super agitation to a mixed solution of said cobalt salt, said copper salt and a neutralizer, to agitate the mixed solution and precipitate a cobalt-copper composite oxide precursor, and thus obtaining a slurry of said precursor, mixing said slurry and a ceria-based support powder to obtain a mixture, and separating a solid mixture of said precursor and said ceria-based support powder from the mixture, followed by drying and firing the mixture. 13. The production method according to claim 12 , wherein said cobalt salt is used in such a ratio that a metal-based supporting amount of cobalt is 5 mass % relative to said ceria-based support. 14. The production method according to claim 12 , wherein said neutralizer is an inorganic basic compound or an organic basic compound. 15. The production method according to claim 12 , wherein said shear stress by super agitation is applied in a reaction vessel by an agitator rotating at a rotation speed of 5,000 to 15,000 rpm. 16. The production method according to claim 12 , wherein said mixed solution is an aqueous solution.