Defect Chemistry of " BaCuO<sub>2</sub>" I. Oxygen Non -Stoichiometry, Cation Molecularity and X-ray Diffraction Determinations

Spinolo, G.; Anselmi‐Tamburini, Umberto; Arimondi, M.; Ghigna, Paolo; Flor, Giorgio

doi:10.1515/zna-1995-1112

Cited by 2 publications

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References 25 publications

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“…The analysis was performed using a homemade, high-accuracy symmetrical thermogravimetric apparatus based on a Cahn 2000 electrobalance. 16 About 40 mg of solid solution placed in a platinum sample holder was used in the thermogravimetric apparatus which was operated under a flux of a high-purity mixture of argon with 5 vol% hydrogen. The temperature of the sample was then increased linearly up to 530°C and maintained at this value until a constant weight was reached, typically in about 60 -90 min.…”

Section: (2) Apparatus and Proceduresmentioning

confidence: 99%

Zirconia‐Based Metastable Solid Solutions through Self‐Propagating High‐Temperature Synthesis: Synthesis, Characterization, and Mechanistic Investigations

Maglia

Anselmi‐Tamburini

Spinolo

et al. 2000

Journal of the American Ceramic Society

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Cubic Zr 1؊x Me x O y (Me ‫؍‬ Fe, Co, Ni, Cu) metastable solid solutions with metal content significantly higher than equilibrium levels have been synthesized by the self-propagating high-temperature synthesis method based on a thermite reaction between metallic zirconium and the transition-metal oxides CoO, Fe 2 O 3 , CuO, and NiO. Through in situ XRD analysis, it was determined that when heated to 1100°C, the cubic solid solution transformed to the tetragonal phase with the concomitant formation of iron oxide. When cooled to lower temperatures, the tetragonal phase transformed to the monoclinic phase at or below 500°C. Results of auxiliary experiments strongly suggest that the formation of the solid solution takes place behind the combustion front by a reaction between zirconia and the metal.

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Section: (2) Apparatus and Proceduresmentioning

confidence: 99%

Zirconia‐Based Metastable Solid Solutions through Self‐Propagating High‐Temperature Synthesis: Synthesis, Characterization, and Mechanistic Investigations

Maglia

Anselmi‐Tamburini

Spinolo

et al. 2000

Journal of the American Ceramic Society

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ChemInform Abstract: Defect Chemistry of “BaCuO2”. Part I. Oxygen Non‐Stoichiometry, Cation Molarity and X‐Ray Diffraction Determinations.

et al. 1996

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structure structure (solids and liquids) D 2000 -005Defect Chemistry of "BaCuO2". Part I. Oxygen Non-Stoichiometry, Cation Molarity and X-Ray Diffraction Determinations.-Investigations on the oxygen-nonstoichiometry of "BaCuO2" materials with 1:1 and 88:90 molar Ba:Cu ratio by polythermal powder XRD combined with isobaric-isothermal gravimetry (300 ≤ T ≤ 820 • C; 1 ≥ P(O2) ≥ 3·10-3 atm), suggest a polyphasic nature of the 1:1 composition. The 88:90 composition is monophasic and exhibits an oxygen over-stoichiometry over the investigated T and P(O2) range reaching δ = 0.21 in Ba0.98CuO1. 98+δ at low temperatures. The nonstoichiometric behavior is attributed to the presence of oxygen interstitial defects on possibly different crystallographic sites. -(SPINOLO, G.; ANSELMI-TAMBURINI, U.; ARIMONDI, M.; GHIGNA, P.; FLOR, G.; Z.

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Defect Chemistry of " BaCuO₂" I. Oxygen Non -Stoichiometry, Cation Molecularity and X-ray Diffraction Determinations

Cited by 2 publications

References 25 publications

Zirconia‐Based Metastable Solid Solutions through Self‐Propagating High‐Temperature Synthesis: Synthesis, Characterization, and Mechanistic Investigations

Zirconia‐Based Metastable Solid Solutions through Self‐Propagating High‐Temperature Synthesis: Synthesis, Characterization, and Mechanistic Investigations

ChemInform Abstract: Defect Chemistry of “BaCuO2”. Part I. Oxygen Non‐Stoichiometry, Cation Molarity and X‐Ray Diffraction Determinations.

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Defect Chemistry of " BaCuO2" I. Oxygen Non -Stoichiometry, Cation Molecularity and X-ray Diffraction Determinations

Cited by 2 publications

References 25 publications

Zirconia‐Based Metastable Solid Solutions through Self‐Propagating High‐Temperature Synthesis: Synthesis, Characterization, and Mechanistic Investigations

Zirconia‐Based Metastable Solid Solutions through Self‐Propagating High‐Temperature Synthesis: Synthesis, Characterization, and Mechanistic Investigations

ChemInform Abstract: Defect Chemistry of “BaCuO2”. Part I. Oxygen Non‐Stoichiometry, Cation Molarity and X‐Ray Diffraction Determinations.

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Defect Chemistry of " BaCuO₂" I. Oxygen Non -Stoichiometry, Cation Molecularity and X-ray Diffraction Determinations