Improved metal-support interaction in Ru/CeO₂ catalyst via plasma-treated strategy for dichloroethane oxidation

Plasma-treatment strategy has become an important technique to modify heterogenous catalyst. Here, the plasma-treated Ru/CeO₂ catalysts were synthesized and applied to dichloroethane (DCE) oxidation. Compared with the untreated catalysts (CeO₂-T and Ru/CeO₂-T), the plasma-treated catalysts (CeO₂-P, Ru/CeO₂-P and Ru/CeO₂-TP) show higher catalytic activity. Amongst, the Ru/CeO₂-P catalyst shows the highest activity (T₉₀ =243 °C, TOF_SSA=6.98 μmol·m⁻²·h⁻¹ and E_a=26 kJ·mol⁻¹). Based on various characterizations, it reveals that the plasma-treatment can enrich the concentration of surface oxygen vacancies, promote the formation of acid sites, and strengthen the interaction between Ru and CeO₂ support. The interaction benefits the dispersion of Ru species, forming more active sites to enhance the DCE conversion. The more acid sites can improve the HCl selectivity. Moreover, the Ru/CeO₂-P catalyst exhibits excellent thermal stability and water-resistance performance. This signification result promotes the development of catalysts by plasma-treated strategy, and its wide application in heterogenous catalysis.