Catalytically effective composition for a multilayer catalyst for exhaust gas after-treatment of combustion exhaust gases

We claim: 1. A catalytically effective composition for exhaust gas after-treatment of combustion exhaust gases in a multilayer catalyst, wherein the composition comprises an oxygen storage material comprising one or more rare earth metals and one or more noble metals selected from platinum, rhodium, and palladium, and wherein the composition has a particle size d90 in a range of 10 μm to 35 μm and a particle size d10 in a range of 1 μm to 4 μm. 2. The catalytically effective composition according to claim 1 , wherein the composition has a particle size d50 in a range of 2.5 μm to 11.5 μm. 3. The catalytically effective composition according to claim 1 , wherein the oxygen storage material comprises a cerium-zirconium oxide. 4. A multilayer catalyst comprising a substrate structure comprising channels for passage of gases, wherein at least some of the channels comprise an exhaust gas inlet situated upstream with respect to a flow direction of the exhaust gases and a gas outlet situated downstream, and wherein at least some of the channels comprise a first catalytically effective layer applied at least to an internal surface of the channels and a second catalytically effective layer that at least partially covers the first layer, wherein the first catalytically effective layer and the second catalytically effective layer comprise a catalytically effective composition according to claim 1 . 5. The multilayer catalyst according to claim 4 , wherein the first catalytically effective layer and the second catalytically effective layer comprise different catalytically effective compositions. 6. The multilayer catalyst according to claim 4 , wherein the composition of the second layer comprises at least one of platinum and rhodium. 7. The multilayer catalyst according to claim 4 , wherein the composition of the first layer comprises palladium. 8. The multilayer catalyst according to claim 4 , wherein the oxygen storage material of the composition of the first layer is different from the oxygen storage material of the composition of the second layer. 9. The multilayer catalyst according to claim 4 , wherein the catalyst comprises two catalytically effective layers. 10. The multilayer catalyst according to claim 4 , wherein the first layer is essentially free of at least one of platinum and rhodium and the second layer is essentially free of palladium. 11. The multilayer catalyst according to claim 4 , wherein at least part of the second layer is arranged upstream of the first layer with respect to the flow direction. 12. An exhaust gas after-treatment system comprising one or more motors and one or more multilayer catalysts according to claim 4 . 13. A vehicle comprising the multilayer catalyst according to claim 4 . 14. An exhaust gas after-treatment method comprising: a) flowing an exhaust gas over a surface comprising a substrate, a first catalytically effective layer that is at least partially applied onto the substrate, and a second catalytically effective layer that at least partially covers the first layer, wherein the first layer and the second layer comprise a catalytically effective composition according to claim 1 ; and b) contacting the exhaust gas flow with the second layer and the first layer; wherein the second layer has a higher nitrogen oxide activity at operating conditions than the first layer; and wherein the first layer and the second layer are configured such that the flow of exhaust gas reaches the second layer first.