Stabilized palladium (+1) compounds to mimic rhodium's electronic configuration and catalytic properties are disclosed. Palladium (+1) compounds may be stabilized in perovskite or delafossite structures and may be employed in Three-Way Catalysts (TWC) for at least the conversion of HC, CO and NOx, i
Stabilized palladium (+1) compounds to mimic rhodium's electronic configuration and catalytic properties are disclosed. Palladium (+1) compounds may be stabilized in perovskite or delafossite structures and may be employed in Three-Way Catalysts (TWC) for at least the conversion of HC, CO and NOx, in exhaust gases. The TWC may include a substrate, a wash-coat and, a first impregnation layer, a second impregnation layer and an over-coat. The second impregnation layer and the over-coat may include palladium (+1) based compounds as catalyst.
대표청구항▼
1. A catalyst system, comprising: a substrate; anda washcoat deposited on the substrate, comprising at least one metal oxide carrier, and at least one catalyst; andwherein the at least one catalyst comprises at least one perovskite structured compound having the formula ABO3 wherein A is selected fr
1. A catalyst system, comprising: a substrate; anda washcoat deposited on the substrate, comprising at least one metal oxide carrier, and at least one catalyst; andwherein the at least one catalyst comprises at least one perovskite structured compound having the formula ABO3 wherein A is selected from the group consisting of Palladium (I), Palladium (I)/Calcium, Lanthanum and combinations thereof, and B is selected from the group consisting of Titanium/Niobium, Niobium, Zirconium, Manganese, Tantalum, Vanadium, Titanium, Tungsten and combinations thereof; andwherein the washcoat further comprises at least one oxygen storage material. 2. The catalyst system of claim 1, wherein A is La. 3. The catalyst system of claim 1, wherein B comprises at least one stable (+5) cation, and wherein the at least one stable (+5) cation is selected from the group consisting of Niobium (V), Vanadium (V), Tantalum (V) and combinations thereof. 4. The catalyst system of claim 1, wherein the at least one perovskite structured compound has the formula Pd1+0.5Ca2+0.5Ti4+0.50Nb5+0.5O3. 5. The catalyst system of claim 1, wherein the at least one perovskite structured compound has the formula Pd1+uCa2+vD4+wE5+xOy, wherein u+v=1, w+x=1, y is from 2.7 to 3, and each of D and E are elements having a stable formal charge of (IV) and (V). 6. The catalyst system of claim 5, wherein y=3. 7. The catalytic system of claim 6, wherein u*1+v*2+w*4+x*5=6. 8. The catalyst system of claim 1, wherein the oxygen storage material is about 20% to about 80% by weight of the washcoat. 9. The catalyst system of claim 1, wherein the at least one perovskite structured compound comprises about 1 g/ft3 to about 100 g/ft3 of Pd. 10. The catalyst system of claim 1, wherein the substrate comprises a honeycomb structure. 11. The catalyst system of claim 1, wherein the substrate comprises at least one ceramic material. 12. The catalyst system of claim 11, wherein the at least one ceramic material is selected from the group consisting of cordierite, mullite, SiC, SiN, and combinations thereof. 13. The catalyst system of claim 1, wherein the substrate is shock resistant. 14. The catalyst system of claim 1, wherein the substrate is thermally resistant. 15. The catalyst system of claim 1, wherein at least a portion of the substrate comprises three-dimensional support for the washcoat. 16. A catalyst system, comprising: a substrate; anda washcoat deposited on the substrate, comprising at least one metal oxide carrier, and at least one catalyst; andwherein the at least one catalyst comprises at least one delafossite structured compound having the formula ABO2 wherein A is Palladium (I) and B is selected from the group consisting of Scandium, Chromium, Manganese, Iron, Cobalt, Gallium, Aluminum and combinations thereof. 17. The catalyst system of claim 16, wherein B comprises at least one stable (+3) cation, and wherein the at least one stable (+3) cation is selected from the group consisting of Scandium (III), Chromium (III), Manganese (III), Iron (III), Cobalt (III), Gallium (III), Aluminum (III) and combinations thereof. 18. The catalytic system of claim 16, further comprising a first impregnation layer wherein the first impregnation layer is heated to about 400° C. to about 700° C. 19. The catalytic system of claim 16, further comprising a second impregnation layer wherein the second impregnation layer is heated to about 400° C. to about 700° C. 20. The catalytic system of claim 16, further comprising an overcoat.
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