Abstract
AbstractThe effective Ce3+/Ce4+ redox and oxygen mobility of CeO2 induced by tunable nanostructure morphology has attracted a great interest in photocatalytic organic synthesis. Herein, we report on the microwave‐assisted synthesis of CeO2 with nanoparticles (NPs), nanorods (NRs) and nanocubes (NCs) morphologies. The optical‐electronic properties of the nanostructure CeO2 catalysts varied relatively with the respective morphologies. Ce‐NPs catalyst showed a significant blue shift while a red shift was observed for Ce‐NCs and a slight blue shift for Ce‐NRs. The Ce‐NRs and Ce‐NPs showed high charge recombination suppression, which was due to the formation of surface defects associated with dislocations, steps and oxygen vacancies (Vo) as elucidated from the photolumiscence, X‐ray photoelectron spectroscopy and electron paramagnetic resonance results. The surface oxygen defects populated with reactive superoxide oxygens of Ce‐NRs and its high surface showed better photocatalytic activity for oxidation of alpha‐pinene to pinene oxide, verbenol and verbenone as major products. A pinene conversion of 33.6 % to pinene oxide with the selectivity of 54.3 % was achieved with Ce‐NRs. The effective photocatalytic activity of the Ce‐NRs was attributed to its enhanced efficient charge recombination suppression and oxygen vacancies. Ce‐NRs catalyst was recyclable without any significant loss of its initial photoactivity.
Published Version
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