Cathode catalysts for fuel cells

What is claimed is: 1. A method for forming a catalytic material comprising: providing sacrificial template particles; reaction of a metal precursor, a Nitrogen-Carbon (NC) precursor, and a selenium or tellurium precursor onto the sacrificial template particles to produce dispersed precursors; heat treating the dispersed precursors; and removing the sacrificial template particles to produce a highly dispersed, self-supported, high surface area catalytic material. 2. The method of claim 1 wherein the catalytic material contains more than one type of active site. 3. The method of claim 1 wherein: the metal precursor and NC precursor are reacted onto the sacrificial template particles and the dispersed metal and NC precursors are heat treated prior to addition of the selenium or tellurium precursor; and the sacrificial template particles are heat treated again after addition of the selenium or tellurium precursor, followed by removal of the sacrificial support. 4. The method of claim 1 wherein each type of active site includes the same metal element, but differs structurally from the other types of active sites. 5. The method of claim 1 wherein the selenium precursor is selenious acid. 6. The method of claim 1 wherein heat treating consists of pyrolysis. 7. The method of claim 1 wherein the tellurium precursor is tellurious acid, elemental tellurium or organic of tellurium. 8. A catalytic material comprising at least two different types of active sites, wherein active sites are considered to be of the same type if they catalyze the same type of reaction through the same mechanism; and wherein one of the types of active sites includes a atomically dispersed metal-selenide or metal-telluride moiety. 9. The catalytic material of claim 8 wherein each type of active site catalyzes oxygen reduction via a different mechanism. 10. The catalytic material of claim 8 further comprising Fe—N 4 active sites. 11. The catalytic material of claim 10 wherein the Fe—N 4 active sites are active for a direct 4e 31 mechanism and the metal-selenide or metal-telluride active sites are a dual site mechanism resulting in the formation of hydrogen peroxide (H 2 O 2 ) and water. 12. A catalytic material formed by: providing sacrificial template particles; reaction of a metal precursor, a Nitrogen-Carbon (NC) precursor, and a selenium or tellurium precursor onto the sacrificial template particles to produce dispersed precursors; heat treating the dispersed precursors; and removing the sacrificial template particles to produce a highly dispersed, self-supported, high surface area catalytic material. 13. The catalytic material of claim 12 wherein the metal precursor and NC precursor are reacted onto the sacrificial template particles and the dispersed metal and NC precursors are heat treated prior to addition of the selenium or tellurium precursor; and the sacrificial template particles are heat treated again after addition of the selenium or tellurium precursor, followed by removal of the sacrificial support.