Abstract
AbstractModifying active species loading, particle size, and distribution on a support is an effective method for tuning catalyst activity. In this work, a copper catalyst anchored on titania was synthesized using the depositionâprecipitation method at low weight % in order to obtain a highly dispersed catalyst (1âCu/TiO2). The interactions between the copper and TiO2 support contribute to the physical and chemical properties of the catalyst. Transmission electron micrographs indicate copper nanoparticles with âŒ2 nm diameter with a fairly uniform distribution across the TiO2 particles. This synthetic approach yields a catalyst that is more active than similar precious metal catalysts, and therefore is a possible approach for creating highly efficient catalysts from economic materials.
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