Surface defects including oxygen vacancies and Ce 3+ ions on the surface of CeO 2 nanorods lead to an efficient catalytic activity towards water oxidation under visible light.
Fluorite CeO 2 nanorods (NRs) with tunable surface defects are successfully prepared via hydrothermal synthesis followed by post-calcination under different atmospheres. Impressively, the CeO 2 NRs obtained under mixed Ar and H 2 gas at 800 °C exhibit superior catalytic activity towards water oxidation under visible light ( λ ≥ 420 nm), which is 10 times higher than that of CeO 2 NRs treated under air at 800 °C. Detailed characterization and theoretical analysis reveal that the rich surface defects including surface oxygen vacancies and Ce 3+ ions are the origin of the enhanced water oxidation performance of the CeO 2 NRs treated under the reduced atmosphere.