Diffusionless Tetragonal–Cubic Transformation Temperature in Zirconia–Ceria Solid Solutions

Yashima, Masatomo; Morimoto, Kenji; Ishizawa, Nobuo; Yoshimura, Masahiro

doi:10.1111/j.1151-2916.1993.tb04028.x

Cited by 139 publications

(113 citation statements)

References 22 publications

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“…A classification of the crystallographic phase and the space group of Ce-Zr mixed oxides as a function of the Ce At.%, previously proposed by Yashima et al [34,35] is presented in Table 2. has been previously evidenced [8,36,37].…”

Section: Resultsmentioning

confidence: 99%

Synergy between gold and oxygen vacancies in gold supported on Zr-doped ceria catalysts for the CO oxidation

Laguna

Pérez

Centeno

et al. 2015

Applied Catalysis B: Environmental

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Section: Resultsmentioning

confidence: 99%

Synergy between gold and oxygen vacancies in gold supported on Zr-doped ceria catalysts for the CO oxidation

Laguna

Pérez

Centeno

et al. 2015

Applied Catalysis B: Environmental

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“…The t phase is a stable one and is formed through a diffusional phase decomposition; t' is obtained through a diffusionless transition and is metastable. The t" form is intermediate between t' and cubic [176][177][178][179]. The H2-TPR profiles reported in [180] show peaks in the temperature range from 400 °C to 600 °C for CZ, attributed to a reduction of surface oxygen and bulk oxygen in Ce0.5Zr0.5O2, respectively [42, 181,182], while the peaks around 360 °C are assigned to the reduction of surface oxygen in CZ and of the bulk NiO, having weak interaction with the support.…”

Section: Silica-supported Nickelmentioning

confidence: 99%

Section: Silica-supported Nickelmentioning

confidence: 99%

Supported Catalysts for CO2 Methanation: A Review

et al. 2017

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CO 2 methanation is a well-known reaction that is of interest as a capture and storage (CCS) process and as a renewable energy storage system based on a power-to-gas conversion process by substitute or synthetic natural gas (SNG) production. Integrating water electrolysis and CO 2 methanation is a highly effective way to store energy produced by renewables sources. The conversion of electricity into methane takes place via two steps: hydrogen is produced by electrolysis and converted to methane by CO 2 methanation. The effectiveness and efficiency of power-to-gas plants strongly depend on the CO 2 methanation process. For this reason, research on CO 2 methanation has intensified over the last 10 years. The rise of active, selective, and stable catalysts is the core of the CO 2 methanation process. Novel, heterogeneous catalysts have been tested and tuned such that the CO 2 methanation process increases their productivity. The present work aims to give a critical overview of CO 2 methanation catalyst production and research carried out in the last 50 years. The fundamentals of reaction mechanism, catalyst deactivation, and catalyst promoters, as well as a discussion of current and future developments in CO 2 methanation, are also included.

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“…In these conditions and under fast cooling rates, a cubic-like phase is quenched, with composition close to the starting one (x = 0.4). We attribute this phase to the defective phase named c' by Yashima et al (8), (16) However, reoxidation occurs at the surface of the rod during cooling, due to contact with air, up to a depth of several microns. That small region suffers the defective c' to non-defective t' phase transition also described by Yashima.…”

Section: Final Discussion and Conclusionmentioning

confidence: 99%

“…However, metastable phases of intermediate compositions (between ≈16 and 80 % Ce content) can be obtained by quenching from temperatures above 1600 ºC and applying a subsequent reoxidizing treatment. (8), (9) For compositions below 65 % the metastable t'-phase is formed, with the same P4 2 /nmc space group as tetragonal zirconia (t-ZrO 2 ), and c>a. On the other hand, the pseudocubic t''-phase found for Ce content between 65 and 80 % is also tetragonal, with the same space group as t' phase, but has c=a.…”

Section: +mentioning

confidence: 99%

Caracterización estructural y espectroscópica de fibras cristalinas de Ce0.4Zr0.6O2 crecidas mediante el método de fusión zonal asistida por láser

Sanjuán¹,

Oliete²,

Várez³

et al. 2008

Bol. Soc. Esp. Ceram. Vidr.

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A structural and spectroscopic characterization of crystalline rods of Ce 0.4 Zr 0.6 O 2 grown by the laser floating zone (LFZ) method is presented. A precursor rod of Ce 0.4 Zr 0.6 O 2 composition was sintered at 1500 ºC in air atmosphere and then processed by the LFZ technique with a CO 2 laser. The processed material was characterized by XRD, SEM and Raman spectroscopy. In the as-grown, dark-color processed rod, the Raman spectrum evolves radially from a t'-like one, corresponding to Ce 0.37 Zr 0.63 O 2 composition, at the edge of the rod, to a very broad and weak, cubic-like one, at the center. The degree of cerium reduction and oxygen non-stoichiometry were determined through measurements of the electronic Raman spectrum of Ce 3+. A strong Ce 3+ signal was found at the core of the rod, indicating strong reduction, whereas no Ce 3+ signal was detected at the edge. To restore oxygen and Ce 4+ content a section of the fiber was reoxidized at 620 ºC for 24 h. A very homogeneous spectrum was found in the reoxidized sample, that was assigned to a t'-phase of composition Ce 0.42 Zr 0.58 O 2 .

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Diffusionless Tetragonal–Cubic Transformation Temperature in Zirconia–Ceria Solid Solutions

Cited by 139 publications

References 22 publications

Synergy between gold and oxygen vacancies in gold supported on Zr-doped ceria catalysts for the CO oxidation

Synergy between gold and oxygen vacancies in gold supported on Zr-doped ceria catalysts for the CO oxidation

Supported Catalysts for CO2 Methanation: A Review

Caracterización estructural y espectroscópica de fibras cristalinas de Ce<sub>0.4</sub>Zr<sub>0.6</sub>O<sub>2</sub> crecidas mediante el método de fusión zonal asistida por láser

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