Direct epoxidation of propylene (DEP) into propylene oxide using molecular oxygen is a promising approach due to high atom utilization and environmental sustainability. However, the absence of highly selective catalysts has been a challenge in this field. Herein, the ligand protected AgCuCl nanocluster was synthesized via a one-pot method and loaded onto BaCO 3 to prepare a small size bimetal catalyst (AgCuCl/BaCO 3 -N 2 ) via calcination under N 2 atmosphere. A PO selectivity of 85.29% at a relatively mild temperature of 275 °C can be obtained. Characterizations revealed that AgCuCl/BaCO 3 -N 2 with low-valence Cu + species facilitated the formation of electrophilic oxygen species that preferentially attacked the C�C bond of propylene, resulting in the production of PO instead of attacking the C−H bond for the formation of byproduct. This study provides a clear example of using supported bimetal catalysts to achieve propylene epoxidation and offers guidance for selecting supports for supported nanoclusters as an efficient catalyst.
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