Self-assembly of structured CeCO3OH and its decomposition in H2 for a novel tactic to obtain CeO2- with excellent photocatalytic property

“…As shown in Figure , the weight loss before 200 °C was attributed to the removal of free water or adsorbed water, while the significant weight loss from 200 to 400 °C was attributed to the decomposition of the mixed-phase cerium compound samples. , The total weight loss between 200 and 400 °C first increased and then remained basically unchanged with an extension of the reaction time, corresponding to the transformation of the dominant phase of the product from CeO 2 to Ce(HCOO)C 2 O 4 , Ce(HCOO) 3 , and Ce(OH)CO 3 . The theoretical weight loss values of CeO 2 , Ce(HCOO)C 2 O 4 , Ce(HCOO) 3 and Ce(OH)CO 3 can be calculated from the following reactions: .25ex2ex CeO 2 → CeO 2 Δ m = 0 % .25ex2ex 4 Ce false( HCOO false) C 2 O 4 + 5 O 2 → 4 CeO 2 + 12 CO 2 + 2 H 2 O Δ m = 37.0 % .25ex2ex 4 Ce ( HCOO ) 3 + 7 O 2 → 4 CeO 2 + 12 CO 2 + 6 H…”

Synthesis of Hierarchical Layered Quasi-Triangular Ce(OH)CO₃ and Its Thermal Conversion to Ceria with High Polishing Performance

“…As shown in Figure , the weight loss before 200 °C was attributed to the removal of free water or adsorbed water, while the significant weight loss from 200 to 400 °C was attributed to the decomposition of the mixed-phase cerium compound samples. , The total weight loss between 200 and 400 °C first increased and then remained basically unchanged with an extension of the reaction time, corresponding to the transformation of the dominant phase of the product from CeO 2 to Ce(HCOO)C 2 O 4 , Ce(HCOO) 3 , and Ce(OH)CO 3 . The theoretical weight loss values of CeO 2 , Ce(HCOO)C 2 O 4 , Ce(HCOO) 3 and Ce(OH)CO 3 can be calculated from the following reactions: .25ex2ex CeO 2 → CeO 2 Δ m = 0 % .25ex2ex 4 Ce false( HCOO false) C 2 O 4 + 5 O 2 → 4 CeO 2 + 12 CO 2 + 2 H 2 O Δ m = 37.0 % .25ex2ex 4 Ce ( HCOO ) 3 + 7 O 2 → 4 CeO 2 + 12 CO 2 + 6 H…”

Synthesis of Hierarchical Layered Quasi-Triangular Ce(OH)CO₃ and Its Thermal Conversion to Ceria with High Polishing Performance

“…Moreover, the characteristic peak position of 11.81 at.% Ce‐doped sample did not shift significantly compared with that of 8.93 at.% sample, which reveals no increase of Ce as substitutional atoms in Ti 4 O 7 (Figure 4A). When the Ce content reaches up to 15.05 at.%, only CeO 2 characteristic peaks located at 461.8 cm −1 (F 2g ) caused by the symmetric vibration of Ce–8O appeared due to its excessive peak intensity 57,58 (Figure 4A). The typical Raman peak of CeO 2 is located at 464 cm −1 , and the redshift of the F 2g results from lattice expansion due to oxygen vacancy and electron reduction 59,60 …”

“…The oxygen content in two samples was calculated according to Equations ( 7) and ( 8), which gave valence states of Ti, Ti +3.53 in the pristine one, and Ti +3. 57…”

Structural and electronic properties of Ce‐doped Ti₄O₇ based on experiments and first‐principles calculations

“…Currently, precipitation and hydrothermal methods are prevalent. In the preparation process, lower concentrations (below 0.1 M) and template agents or surfactants are typically used to achieve a specific morphology and a uniform distribution of CeO 2 [15][16][17].…”

Controlled Synthesis of Triangular Submicron-Sized CeO2 and Its Polishing Performance