Catalyst for solid polymer fuel cells and method for producing same

The invention claimed is: 1. A catalyst for solid polymer fuel cells in which catalyst particles comprising platinum and a transition metal M are supported on a carbon powder carrier, wherein a molar ratio (Pt/M) of the platinum to the transition metal M in the catalyst particles is 2.5 or more, and a ratio (S COMSA /S BET ) of a platinum specific surface area (S COMSA ) measured by a CO adsorption method to a catalyst specific surface area (S BET ) measured by a BET method is 0.26 or more and 0.32 or less. 2. The catalyst for solid polymer fuel cells according to claim 1 , wherein in X-ray diffraction analysis of catalyst particles, a ratio (I Pt /I cat ) of a Pt-derived peak intensity (I Pt ) near 2θ=67.4° to a peak intensity (I cat ) of a main peak appearing in a range of 2θ=69° to 71° is 0.35 or less. 3. The catalyst for solid polymer fuel cells according to claim 1 , wherein the transition metal M is at least one transition metal selected from cobalt, nickel, manganese, iron, titanium, vanadium, chromium, copper, zinc and zirconium. 4. The catalyst for solid polymer fuel cells according to claim 1 , wherein a supporting ratio of catalyst particles to an entire catalyst is 30 to 70% on a mass basis. 5. The catalyst for solid polymer fuel cells according to claim 2 , wherein the transition metal M is at least one transition metal selected from cobalt, nickel, manganese, iron, titanium, vanadium, chromium, copper, zinc and zirconium. 6. The catalyst for solid polymer fuel cells according to claim 2 , wherein a supporting ratio of catalyst particles to an entire catalyst is 30 to 70% on a mass basis. 7. The catalyst for solid polymer fuel cells according to claim 3 , wherein a supporting ratio of catalyst particles to an entire catalyst is 30 to 70% on a mass basis. 8. A method for producing the catalyst for solid polymer fuel cells as set forth in claim 1 , comprising the steps of: supporting a transition metal M on a platinum catalyst in which platinum particles are supported on a carbon powder carrier; subjecting the platinum catalyst, on which the transition metal M is supported, to a heat treatment at 700 to 1100° C.; bringing the catalyst after the heat treatment into contact with an oxidizing solution at least once; and bringing a platinum compound solution into contact with the catalyst treated with the oxidizing solution. 9. The method for producing the catalyst for solid polymer fuel cells according to claim 8 , wherein the catalyst is brought into contact with at least one oxidizing solution selected from a group including solutions of sulfuric acid, nitric acid, phosphorous acid, potassium permanganate, hydrogen peroxide, hydrochloric acid, chloric acid, hypochlorous acid and chromic acid. 10. The method for producing the catalyst for solid polymer fuel cells according to claim 8 , wherein at least one platinum compound solution selected from a group including a platinic chloride solution, a dinitrodianmine platinum nitric acid solution and a potassium chloroplatinate aqueous solution is brought into contact with the catalyst. 11. A method for producing the catalyst for solid polymer fuel cells as set forth in claim 2 , comprising the steps of: supporting a transition metal M on a platinum catalyst in which platinum particles are supported on a carbon powder carrier; subjecting the platinum catalyst, on which the transition metal M is supported, to a heat treatment at 700 to 1100° C.; bringing the catalyst after the heat treatment into contact with an oxidizing solution at least once; and bringing a platinum compound solution into contact with the catalyst treated with the oxidizing solution. 12. A method for producing the catalyst for solid polymer fuel cells as set forth in claim 3 , comprising the steps of: supporting a transition metal M on a platinum catalyst in which platinum particles are supported on a carbon powder carrier; subjecting the platinum catalyst, on which the transition metal M is supported, to a heat treatment at 700 to 1100° C.; bringing the catalyst after the heat treatment into contact with an oxidizing solution at least once; and bringing a platinum compound solution into contact with the catalyst treated with the oxidizing solution. 13. A method for producing the catalyst for solid polymer fuel cells as set forth in claim 4 , comprising the steps of: supporting a transition metal M on a platinum catalyst in which platinum particles are supported on a carbon powder carrier; subjecting the platinum catalyst, on which the transition metal M is supported, to a heat treatment at 700 to 1100° C.; bringing the catalyst after the heat treatment into contact with an oxidizing solution at least once; and bringing a platinum compound solution into contact with the catalyst treated with the oxidizing solution. 14. The method for producing the catalyst for solid polymer fuel cells according to claim 9 , wherein at least one platinum compound solution selected from a group including a platinic chloride solution, a dinitrodianmine platinum nitric acid solution and a potassium chloroplatinate aqueous solution is brought into contact with the catalyst.