Thermally stable compositions of OSM free of rare earth metals

What is claimed is: 1. A catalytic composition, comprising: an oxygen storage material, comprising Cu—Mn spinel. 2. The catalytic composition of claim 1 , wherein the oxygen storage material is substantially free of platinum group metals. 3. The catalytic composition of claim 1 , wherein the oxygen storage material is substantially free of rare earth metals. 4. The catalytic composition of claim 1 , wherein the Cu—Mn spinel has the formula Cu 1.0 Mn 2.0 O 4 . 5. The catalytic composition of claim 1 , wherein the catalytic composition comprises about 8% to about 13% by weight of Cu. 6. The catalytic composition of claim 1 , wherein the catalytic composition comprises about 16% to about 21% by weight of Mn. 7. A catalytic composition, comprising: an oxygen storage material, comprising Cu—Mn spinel and Niobium-Zirconia support oxide. 8. The catalytic composition of claim 7 , wherein the oxygen storage material is substantially free of platinum group metals. 9. The catalytic composition of claim 7 , wherein the oxygen storage material is substantially free of rare earth metals. 10. The catalytic composition of claim 7 , wherein the Cu—Mn spinel has the formula Cu 1.0 Mn 2.0 O 4 . 11. The catalytic composition of claim 7 , wherein the Niobium-Zirconia support oxide has the formula Nb 2 O 5 —ZrO 2 . 12. The catalytic composition of claim 7 , wherein the catalytic composition comprises about 8% to about 13% by weight of Cu. 13. The catalytic composition of claim 7 , wherein the catalytic composition comprises about 16% to about 21% by weight of Mn. 14. The catalytic composition of claim 7 , wherein the niobium-zirconia support oxide is present at about 66% to about 75% by weight. 15. The catalytic composition of claim 7 , wherein the niobium-zirconia support oxide comprises about 15% to about 30% by weight Nb 2 O 5 and about 70% to about 85% by weight ZrO 2 . 16. The catalytic composition of claim 15 , wherein the niobium-zirconia support oxide comprises about 25% by weight Nb 2 O 5 and about 75% by weight ZrO 2 . 17. The catalytic composition of claim 1 , wherein the catalytic composition is dried and subsequently calcined at about 550° C. to about 650° C. 18. The catalytic composition of claim 17 , wherein the catalytic composition is dried and subsequently calcined at about 600° C. 19. The catalytic composition of claim 7 , wherein the catalytic composition is dried and subsequently calcined at about 550° C. to about 650° C. 20. The catalytic composition of claim 19 , wherein the catalytic composition is dried and subsequently calcined at about 600° C.