Abstract
The photocatalytic oxidation of biomass-derived building blocks such as 5-hydroxymethylfurfural (HMF) is a promising reaction for obtaining valuable chemicals and the efficient long-term storage of solar radiation. In this work, we developed innovative TiO(2)-based materials capable of base-free HMF photo-oxidation in water using simulated solar irradiation. The materials were prepared by combining microemulsion and spray-freeze drying (SFD), resulting in highly porous systems with a large surface area. The effect of titania/silica composition and the presence of gold-copper alloy nanoparticles on the properties of materials as well as photocatalytic performance were evaluated. Among the lab-synthesized photocatalysts, Ti(15)Si(85) SFD and Au(3)Cu(1)/Ti(15)Si(85) SFD achieved the higher conversions, while the best selectivity was observed for Au(3)Cu(1)/Ti(15)Si(85) SFD. The tests with radical scavengers for both TiO(2)-m and Au(3)Cu(1)/Ti(15)Si(85) SFD suggested that primary species responsible for the selective photo-oxidation of HMF are photo-generated electrons and/or superoxide radicals.