AI Article Synopsis
- The crystalline zirconium tungstate (ZrWO) exhibits catalytic properties particularly suited for liquid-phase selective oxidation of various organic substrates using aqueous hydrogen peroxide as a green oxidant.
- Characterization techniques like N adsorption, PXRD, and IR spectroscopy indicated the presence of Brønsted acidic and basic sites on ZrWO's surface, enhancing its catalytic activity.
- The catalyst effectively facilitates reactions such as epoxidation of alkenes, oxidation of thioethers and alcohols, and regenerates well without losing activity or selectivity.
Article Abstract
Catalytic properties of a crystalline zirconium tungstate, ZrWO, the material known mainly for its isotropic negative coefficient of thermal expansion, have been assessed for the liquid-phase selective oxidation of a range of organic substrates comprising CC, OH, S and other functional groups using aqueous hydrogen peroxide as the green oxidant. Samples of ZrWO were prepared by hydrothermal synthesis and characterised by N adsorption, PXRD, SEM, EDX, FTIR and Raman spectroscopic techniques. Studies by IR spectroscopy of adsorbed probe molecules (CO and CDCl) revealed the presence of Brønsted acidic and basic sites on the surface of ZrWO. It was demonstrated that ZrWO is able to activate HO under mild conditions and accomplish the epoxidation of CC bonds in alkenes and unsaturated ketones, oxidation of thioethers to sulfoxides and sulfones, along with the oxidation of alcoholic functions to produce ketones and aldehydes. The oxidation of tetramethylethylene and α-terpinene over ZrWO revealed the formation of peroxidation products, 2,3-dimethyl-3-butene-2-hydroperoxide and endoperoxide ascaridole, respectively, indicating the involvement of singlet oxygen in the oxidation process. The ZrWO catalyst preserves its structure and morphology under the turnover conditions and does not suffer from metal leaching. It can be easily recovered, regenerated by calcination, and reused without the loss of activity and selectivity.
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