Co-Fe-Mo mixed metal oxides derived from layered double hydroxides for deep aerobic oxidative desulfurization

Aerobic oxidative desulfurization (AODS) is a vital development aspect for the deep desulfurization of fuel, which requires catalysts with high performance to efficiently convert thiophenic sulfides to sulfones. Here CoFeMo mixed metal oxides (MMOs) were synthesized through the calcination of molybdate (MoO42-) intercalated CoFe layered double hydroxides (LDHs), which can serve as a robust and durable catalyst for AODS. The catalysts were synthetically characterized by using a range of techniques to identify its chemical and morphological properties, which showed that the content and electronic structure of Mo sites can be regulated by altering the intercalation content of MoO42-, and ultimately affect their catalytic performance. The optimal catalyst was capable of efficiently catalyzing the aerobic oxidative conversion of various thiophenic compounds into sulfones at 100 degrees C, and exhibited an excellent reusability by keeping the unchanged activity and chemical structure in repeated uses. This study would develop a feasible method to synthesize the highly efficient MMO catalysts for AODS of fuels.

Automated summary

In this study, CoFeMo mixed metal oxides (MMOs) were successfully synthesized as a robust and durable catalyst for aerobic oxidative desulfurization (AODS) of fuel. The catalytic performance can be regulated by altering the intercalation content of MoO42-, and the optimal catalyst efficiently converts various thiophenic compounds into sulfones at 100 degrees C, showing excellent reusability. This research provides a feasible method to synthesize highly efficient MMO catalysts for AODS of fuels.