Experimental and theoretical study on the complete phase separation of ceria-zirconia solid solution into two end members, ceria and zirconia

Authors
Oh, Seol HeeKim, Hyun-KyuKim, JasonKim, Yeong-CheolPark, Sun-YoungYang, SungeunJi, Ho-IlYoon, Kyung JoongSon, Ji-WonLee, Jong-Ho
Issue Date
2022-10
Publisher
IOP Publishing
Citation
JPhys Energy, v.4, no.4
Abstract
Solid solution CeO2-ZrO2 has long been used as a non-noble metal oxide promoter for three-way catalysts owing to its high oxygen storage capacity. However, the stability issue of the CeO2-ZrO2 has been controversial for a long time. In particular, the phenomena observed by phase instability are so diverse and inconsistent that the related causal analysis is still a matter of debate. In this study, for the first time, it was demonstrated theoretically and experimentally that a Ce0.75Zr0.25O2 (CZO) solid solution must be completely separated into CeO2 and ZrO2 phases owing to its inherent thermodynamic instability. According to an extensive evaluation via defect chemical calculations and well-controlled model experiments with grain-boundary-free epitaxial thin film samples, CZO materials undergo phase separation until they are completely separated, and the separation rate is particularly high in a reducing atmosphere. The underlying inherent stability problem and enhanced phase separation kinetics of the CZO material are attributed to the enhanced cation diffusion in a reducing atmosphere, where more mobile cationic defects (interstitial cations) are generated and an easier pathway with a lower migration energy is available.
Keywords
THERMAL-STABILITY; MIXED OXIDES; PD; HETEROGENEITY; OXIDATION; Ce0.75Zr0.25O2; ceria-zirconia solid solution; phase stability; complete dissociation; enhanced cation diffusion
ISSN
2515-7655
URI
https://pubs.kist.re.kr/handle/201004/114503
DOI
10.1088/2515-7655/ac8a76
Appears in Collections:
KIST Article > 2022
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