Abstract

A novel chemocatalytic technology for the valorization of glycerol (GLY) is presented, where the continuous gas-phase oxidation to dihydroxyacetone (DHA) is accomplished over iron-containing zeolites in the presence of molecular oxygen. The catalyst design elucidated the impact of acidic properties and iron speciation on the performance. For this purpose, a series of catalysts displaying a zeolitic or amorphous structure, different Bronsted and Lewis acid site concentrations and strengths, and distinct iron species were synthesized, characterized by a multitechnique approach, and evaluated in a fixed-bed reactor. Fe-silicalite prepared by isomorphous substitution of iron in the all-silica framework followed by steam activation at 873 K exhibits very mild acidity and highly dispersed iron species in the form of isolated cations or small FeOx clusters in extra framework positions, leading to a stable DHA yield of ca. 90%. In contrast, impregnated or hydrothermally prepared and steamed aluminum-containing ca...

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