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The invention is a fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24). The cathode catalyst layer (24) includes a platinum oxygen reduction catalyst and an oxygen evolution catalyst selected from the group consisting of catalysts that are more active than platinum

The invention is a fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24). The cathode catalyst layer (24) includes a platinum oxygen reduction catalyst and an oxygen evolution catalyst selected from the group consisting of catalysts that are more active than platinum for oxygen evolution. The oxygen evolution catalyst may be uniformly applied within the cathode catalyst layer, or non-uniformly applied to identified high corrosion areas (82) (84) of the cathode catalyst layer (24). The cathode catalyst layer (24) may include heat-treated carbon support material, and/or a heat-treated carbon black within a diffusion layer (40) supporting the cathode catalyst layer (24). The fuel cell (20) may also include an anode catalyst layer (22) having a poor oxygen reduction catalyst having a greater oxygen reduction over potential than platinum.

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1. A fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24), the fuel cell (20) comprising:a. an anode catalyst layer (22) and a cathode catalyst layer (24) secured to opposed surfaces of an electrolyte (26); b. wherein the cathode catalyst layer (24) includes a platin

1. A fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24), the fuel cell (20) comprising:a. an anode catalyst layer (22) and a cathode catalyst layer (24) secured to opposed surfaces of an electrolyte (26); b. wherein the cathode catalyst layer (24) includes a platinum oxygen reduction catalyst and an oxygen evolution catalyst selected from the group consisting of catalysts that are more active than platinum for oxygen evolution. 2. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 1, wherein the oxygen evolution catalyst is selected from the group consisting of iridium, rhodium, ruthenium, ruthenium oxide, compounds of ruthenium and titanium oxide, ruthenium and tantalum oxide, ternary compounds of ruthenium, iridium and tantalum oxide, alloys of those materials with platinum, and mixtures thereof.3. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 1, wherein the platinum oxygen reduction catalyst is between 4 wt. % and 40 wt. %, and the oxygen evolution catalyst is between 1 wt. % and 10 wt. % with respect to the catalysts and a carbon support material supporting the catalysts.4. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 1, wherein the cathode catalyst layer (24) defines a reactive surface (62), the platinum oxygen reduction catalyst is uniformly applied across the reactive surface (62), and the oxygen evolution catalyst is non-uniformly applied across the reactive surface (62) of the cathode catalyst layer (24).5. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 4, wherein the oxygen evolution catalyst is non-uniformly applied across the reactive surface (62) so that the oxygen evolution catalyst is secured to identified high corrosion areas (82) (84) of the reactive surface (62) of the cathode catalyst layer (24).6. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 4, wherein the oxygen evolution catalyst is non-uniformly applied on the reactive surface (62) so that the oxygen evolution catalyst is secured to identified high corrosion areas (82) (84) of the reactive surface (62) of the cathode catalyst layer (24) at a greater quantity than the oxygen evolution catalyst is applied to non-high corrosion areas of the reactive surface (62) of the cathode catalyst layer (24).7. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 1, wherein the cathode catalyst layer (24) includes a heat-treated carbon support, the carbon support being heat-treated to a temperature at least as high as 2,000° C.8. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 1, wherein the fuel cell (20) includes a cathode catalyst layer support means for supporting the cathode catalyst layer and for permitting fluid flow through the support means, the support means comprising a heat-treated carbon black forming a cathode diffusion layer (40), the carbon black of the cathode diffusion layer (40) being heat-treated to a temperature at least as high as 2,000° C.9. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 1, wherein the fuel cell (20) includes an anode catalyst layer (22) having a poor oxygen reduction catalyst, the poor oxygen reduction catalyst being selected from the group consisting of catalysts having a greater oxygen reduction over potential than platinum.10. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 9, wherein the poor oxygen reduction catalyst is selected from the group consisting of iridium, rhodium, palladium, rhenium, ruthenium, gold, silver, nickel, alloys of these materials with another member or members of the group or with platinum, and mixtures thereof.11. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 1 wherein the electrolyte (26) is a proton exchange membrane electrolyte.12. A fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24), the fuel cell (20) comprising:a. an anode catalyst layer (22) and a cathode catalyst layer (24) secured to opposed surfaces of an electrolyte (26); b. wherein the anode catalyst layer (22) includes a poor oxygen reduction catalyst, the poor oxygen reduction catalyst being selected from the group consisting of catalysts having a greater oxygen reduction over potential than platinum. 13. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 12, wherein the poor oxygen reduction catalyst is selected from the group consisting of iridium, rhodium, palladium, rhenium, ruthenium, gold, silver, nickel, alloys of these materials with another member or members of the group or with platinum, and mixtures thereof.14. A fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24), the fuel cell (20) comprising:a. an anode catalyst layer (22) and a cathode catalyst layer (24) secured to opposed surfaces of a proton exchange membrane electrolyte (26); and, b. wherein the cathode catalyst layer (24) includes a heat-treated carbon support, the carbon support being heat-treated to a temperature at least as high as 2,000° C. 15. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 14, wherein the fuel cell (20) includes a cathode catalyst layer support means for supporting the cathode catalyst layer and for permitting fluid flow through the support means, the support means comprising a heat-treated carbon black forming a cathode diffusion layer (40), the carbon black of the cathode diffusion layer (40) being heat-treated to a temperature at least as high as 2,000° C.16. A fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24), the fuel cell (20) comprising:a. an anode catalyst layer (22) and a cathode catalyst layer (24) secured to opposed surfaces of an electrolyte (26); b. wherein the cathode catalyst layer (24) includes a platinum oxygen reduction catalyst and an oxygen evolution catalyst selected from the group consisting of catalysts that are more active than platinum for oxygen evolution; c. wherein the cathode catalyst layer (24) defines a reactive surface (62), the platinum oxygen reduction catalyst is uniformly applied across the reactive surface (62), and the oxygen evolution catalyst is non-uniformly applied across the reactive surface (62) of the cathode catalyst layer (24); d. wherein the cathode catalyst layer (24) includes a heat-treated carbon support, the carbon support being heat-treated to a temperature at least as high as 2,000° C.; and, e. wherein the anode catalyst layer (22) includes a poor oxygen reduction catalyst, the poor oxygen reduction catalyst being selected from the group consisting of catalysts having a greater oxygen reduction over potential than platinum. 17. The The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 16, wherein the oxygen evolution catalyst is non-uniformly applied across the reactive surface (62) so that the oxygen evolution catalyst is secured to identified high corrosion areas (82) (84) of the reactive surface (62) of the cathode catalyst layer (24).18. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 16 wherein the oxygen evolution catalyst is non-uniformly applied on the reactive surface (62) so that the oxygen evolution catalyst is secured to identified high corrosion areas (82) (84) of the reactive surface (62) of the cathode catalyst layer (24) at a greater quantity than the oxygen evolution catalyst is applied to non-high corrosion areas of the reactive surface (62) of the cathode catalyst layer (24).19. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 16, wherein the fuel cell (20) includes a cathode catalyst layer support means for supporting the cathode catalyst layer and for permitting fluid flow through the support means, the support means comprising a heat-treated carbon black forming a cathode diffusion layer (40), the carbon black of the cathode diffusion layer (40) being heat-treated to a temperature at least as high as 2,000° C.20. The fuel cell (20) having a corrosion resistant and protected cathode catalyst layer (24) of claim 16, wherein the poor oxygen reduction catalyst included in the anode catalyst layer is selected from the group consisting of iridium, rhodium, palladium, rhenium, ruthenium, gold, silver, nickel, alloys of these materials with another member or members of the group or with platinum, and mixtures thereof.