Large Dimensional CeO₂ Nanoflakes by Microwave‐Assisted Synthesis: Lamellar Nano‐Channels and Surface Oxygen Vacancies Promote Catalytic Activity

Abstract: Large nano-structured flakes of CeO 2 (20-80 nm in thickness, up to 5.6 mm in diameter) were synthesized by a combination of microwave (MW), ultraviolet (UV) and ultrasound (US), with or without pressure (P). The CeO 2 structures were systematically examined by XRD, SEM, N 2 sorption, HRTEM, XPS, Raman and H 2 -TPR. The synthesized CeO 2 nanoflakes were composed by 3.0-7.5 nm nanoparticles with the (111) surface exposed, and laminated to nanoflakes with 3.42-3.85 nm nano-channels in between. MW-assisting was b… Show more

“…Figure 4a shows the Ce 3d high‐resolution spectrum in NP@BiOI, NR@BiOI, NO@BiOI, and NC@BiOI. The proportion of Ce 3+ were calculated by the previously published method in literature [ 30–32 ] because the ratio of Ce 3+ is important for the surface defects and photocatalytic activity of ceria‐based systems. [ 33–35 ] The calculated ratios of Ce 3+ were 23.9 (NP@BiOI), 18.7 (NR@BiOI), 12.0 (NO@BiOI), and 10.1% (NC@BiOI), respectively.…”

Shape‐Dependent CeO₂@BiOI for Degradation of Aqueous Cr(VI)

“…Figure 4a shows the Ce 3d high‐resolution spectrum in NP@BiOI, NR@BiOI, NO@BiOI, and NC@BiOI. The proportion of Ce 3+ were calculated by the previously published method in literature [ 30–32 ] because the ratio of Ce 3+ is important for the surface defects and photocatalytic activity of ceria‐based systems. [ 33–35 ] The calculated ratios of Ce 3+ were 23.9 (NP@BiOI), 18.7 (NR@BiOI), 12.0 (NO@BiOI), and 10.1% (NC@BiOI), respectively.…”

Shape‐Dependent CeO₂@BiOI for Degradation of Aqueous Cr(VI)

“…† 33 In this reaction, the oxidation of benzyl alcohol is promoted by redox sites on the ceria, while the subsequent condensation reaction between benzaldehyde and aniline is facilitated by the Lewis acid sites on the material. [34][35][36][37] The associated reaction proles are presented in Fig. 4c.…”

Ce³⁺-enriched spherical porous ceria with an enhanced oxygen storage capacity

“…[3] With the development of solar technology, a pile of photocatalytic nanomaterials, which has boosted band structures and highefficiency photoelectric separation effect, are expected to solve the above problems more effectively. [4] Ceria (CeO 2 ), a wildly abundant rare metal in the earth, is widely used in industrial catalysis, [5][6][7] fuel cells and other fields. [8] Particularly, CeO 2 shows preponderance in contamination degradation, on account of its brilliant redox ability due to variable valence in Ce 3 + /Ce 4 + .…”

“…[9] However, CeO 2 has a wide bandgap, and photogenerated electrons and holes are easily recombined. In order to eliminate the disadvantages, researchers tuned the CeO 2 exposing crystal planes by changing its morphology and the exposed facets, which related to the redox ability, electron structures, adsorption property and so forth, [6][7][8][9][10] to optimize its catalytic effect. Besides the morphology control, the combination of CeO 2 with another material is an efficient way to improve the forthputting of visible light and charge separation.…”

Highly Enhanced Visible‐light Photocatalytic Activity via a Novel Surface Structure of CeO₂/g−C₃N₄ toward Removal of 2,4‐dichlorophenol and Cr(VI)