Abstract

Ag/Cu bimetallic nanocatalysts supported on reticulate‐like γ ‐alumina were prepared by a microemulsion method using N 2 H 4 · H 2 O as the reducing agent. The catalysts were activated by calcination followed with hydrogen reduction at 873K, and the properties were confirmed using various characterization techniques. Compared with metal oxides particles, Ag‐Cu particles exhibited smaller sizes (<5 nm) after calcination in H 2 at 873K. XPS results indicated that the binding energies changed with the Ag/Cu ratios, suggesting that increasing the copper content gave both metals a greater tendency to lose electrons. Furthermore, Ag‐Cu bimetallic nanoparticles supported on γ ‐alumina showed better catalytic activity on the epoxidation of styrene as compared with the corresponding monometallic silver or copper. The styrene oxide selectivity could reach 76.6% at Ag/Cu molar ratio of 3/1, while the maximum conversion (up to 94.6%) appeared at Ag/Cu molar ratio of 1/1 because of the maximum interaction between silver and copper.