Mesoporous CuO–Fe2O3 composite catalysts for low-temperature carbon monoxide oxidation

Abstract

A series of mesoporous CuO–Fe2O3 composite oxide catalysts with different CuO contents were prepared by a surfactant-assisted method of nanoparticle assembly. The prepared composite oxides were characterized by X-ray diffraction, N2 adsorption, transmission electron microscopy, hydrogen temperature-programmed reduction, thermogravimetry–differential thermal analysis and X-ray photoelectron spectroscopy. Their catalytic behavior for low-temperature CO oxidation was studied by using a microreactor-GC system. These mesoporous CuO–Fe2O3 catalysts possess a wormhole-like mesostructure with a narrow pore size distribution and high surface area, exhibiting high catalytic activity and stability for low-temperature CO oxidation. The catalytic behavior depended on the CuO content, the precalcination temperature, the surface area and the particle size of the catalysts. The catalyst with 15mol% CuO content and calcined at 300°C exhibited the highest catalytic activity and stability.