Download This PaperThe Construction of Defects-Rich Tio2-Supported Pd Catalyst for Phenol Hydrogenation with Ball-Milling Process
11 Pages Posted: 2 Sep 2022
Abstract
An active catalyst Pd/TiO2(M) for phenol hydrogenation to cyclohexanone was constructed via a ball milling process. This mechanical process avoids the thermal reduction in hydrogen atmosphere and creates oxygen vacancies on TiO2, which prevents the oxide support encapsulating active metal palladium due to the strong metal-support interaction(SMSI) but improves the catalytic performance of palladium. Under atmospheric hydrogen generated by electrolyzing water, phenol can be hydrogenated to cyclohexanone selectively. Characterizations, control experiments and DFT calculations reveal that surface defective structures of Ti 3+ -Ov can stabilize Pd nanoclusters and promote the formation of electron-rich Pd. This kind of electronic metal-support interaction facilitates the dissociative adsorption of phenol, so that Pd/TiO2(M) exhibits outstanding catalytic activity and selectivity for phenol hydrogenation to cyclohexanone.
Keywords: Selective hydrogenation, Light-induced energy, Oxygen vacancy, Palladium, Phenol
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