Catalyst for solid polymer fuel cells and method for producing same

The invention claimed is: 1. A catalyst for a solid polymer fuel cell, comprising catalyst particles containing platinum and cobalt supported on a carbon powder carrier, the catalyst having sulfo groups (—SO 3 H) directly on the catalyst particles and directly on the carbon powder carrier, wherein an amount of the sulfo groups on the catalyst particles exceeds an amount of the sulfo groups on the carbon powder carrier. 2. A method for producing the catalyst for the solid polymer fuel cell defined in claim 1 , wherein the method comprises a step of immersing the catalyst including the catalyst particles containing the platinum and the cobalt supported on the carbon powder carrier in a mixed solution containing concentrated sulfuric acid and fuming sulfuric acid, a mixing ratio between the concentrated sulfuric acid and the fuming sulfuric acid in the mixed solution in the form of the concentrated sulfuric acid/the fuming sulfuric acid is 1.0 or more and 2.0 or less, a temperature of the mixed solution is 40° C. or higher and 90° C. or lower, and a treatment time by the mixed solution is 8 h or more and 24 h or less. 3. The method for producing the catalyst for the solid polymer fuel cell defined in claim 2 , wherein an amount of the mixed solution is 10 ml or more and 20 ml or less per gram of the catalyst. 4. The catalyst for the solid polymer fuel cell according to claim 1 , wherein in a TEM EDX analysis, a ratio (I S /I Pt ) of a sulfur peak intensity (I S ) to a platinum peak intensity (I Pt ) on the catalyst particles being within a range of 0.0044 or more and 0.0090 or less, and on the catalyst particles and on the carbon powder carrier, appearance rates of sulfur peaks based on results of TEM-EDX analysis at five or more measurement points (a number of sulfur peaks appeared/a total number of measurements ×100) are 55% or more on the catalyst particles (X PtCo ) and 30% or less on the carbon powder carrier (X C ), respectively. 5. The catalyst for the solid polymer fuel cell according to claim 4 , wherein a ratio (X PtCo /X C ) of the appearance rates of sulfur peaks on the catalyst particles (X PtCo ) to the appearance rates of sulfur peaks on the carbon powder carrier (X C ) is 2.5 or more.