Authors: Yume Okazaki, Akihiro Ishii, Itaru Oikawa, Hitoshi Takamura
Published: 2025-03-24
Source: Full article
AbstractCeO2–ZrO2 (CZ) solid solutions are widely utilized to control the oxygen partial pressure of automobile exhaust purification systems owing to their high oxygen storage capacity (OSC) related to the valence change of Ce ions upon reduction. Among various CZs, cation‐ordered κ‐Ce2Zr2O8 shows the highest OSC; however, the ordering requires high‐temperature reduction above 1200 °C, causing grain growth and potentially compromising the OSC. Recently, it has been reported that adding a small amount of Fe2O3 to CZ (Zr/Ce = 1) lowers the ordering temperature to 800 °C. In this study, Zr‐rich CZ, known for its excellent heat resistance and widespread applications, is cation‐ordered at low temperatures by the addition of Fe2O3. Using high‐temperature in situ XRD, the low‐temperature ordering behavior of Fe2O3‐added Zr‐rich CZ is observed under oxygen partial pressure during reduction. A weakly reducing atmosphere promotes CZ ordering because Fe2O3 remains an ionic Fe that can be dissolved in CZ to facilitate cation migration. In contrast, a strongly reducing atmosphere converts Fe2O3 to metallic Fe, which is unfavorable for CZ ordering. The study suggests that the reduction atmosphere has a significant impact on the dissolution of transition metal oxides and cation ordering of ceramics.