Thermal synthesis of ultradispersed Ce0,5Zr0,5O2 / γ-Al2O3 and viscosity of its aqueous suspension for catalytic coatings

In the present work, ultradispersed nanostructured powder of Ce_0,5Zr_0,5O₂ / γ-Al₂O₃ were obtained by thermolysis of a suspension of amorphous boehmite AlOOH in an aqueous solution of maltose C₁₂H₂₂O₁₁ and nitrate salts of Zr and Ce at a mass ratio of oxides Ce, Zr : γ-Al₂O₃ from 1: 9 to 1:1. The powders obtained have a high thermal stability which is confirmed by XRD and high specific surface area 40 - 80 m²/g after heating at 1000 °C depending on oxide ratio. Based on the obtained oxide powders, suspensions with a relatively low rotational viscosity are prepared without the use of organic plasticizers by use of protonation and bimodal particle size distribution of solid phase. This allowed us to achieve a gain of catalytic coating 120 g per dm³ of substrate and successfully apply this results in the technology of heterogeneous catalysts for automotive pollution control.