Microwave-assisted synthesis of carbon-supported carbides catalysts for hydrous hydrazine decomposition

Microwave-assisted synthesis of carbon-supported Mo₂C and WC nanomaterials was studied. Two different routes were utilized to prepare MoO₃ (WO₃) - C precursors that were then subjected to microwave irradiation in an inert atmosphere. The effect of synthesis conditions, such as irradiation time and gas environment, was investigated. The structure and formation mechanism of the carbide phases were explored. As-synthesized nanomaterials exhibited catalytic activity for hydrous hydrazine (N₂H₄·H₂O) decomposition at 30–70 ^°C. It was shown that the catalyst activity significantly increases if microwave irradiation is applied during the decomposition process. Such conditions permit complete conversion of hydrazine to ammonia and nitrogen within minutes. This effect can be attributed to the unique nanostructure of the catalysts that includes microwave absorbing carbon and active carbide constituents.