Changes of Structural Properties in Polycrystalline Y2O3 during Heating in Air and Vacuum

Polymorphic transformations of the first and second kind of the type C ordered cubic structure into the type C 1 disordered structure were found during heating of samples of Y 2 O 3 oxide grade (99.990%) for phosphors in the range 500 – 1100°C in air and vacuum. The phase transformations proceeded w...

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Published in	Refractories and industrial ceramics Vol. 64; no. 6; pp. 604 - 613
Main Author	Solovyeva, A. E.
Format	Journal Article
Language	English
Published	New York Springer US 01.03.2024 Springer Nature B.V
Subjects	Ceramics Characterization and Evaluation of Materials Chemical composition Chemistry and Materials Science Color centers Composites Cubic lattice Decomposition Diffusion rate Glass Heating Lattice vacancies Materials Science Natural Materials Oxidation Oxygen Oxygen content Parameters Phase transitions Phases Phosphors Refractivity Stoichiometry Yttrium oxide microstructure structural defects ) phase transformations refractive index yttrium oxide (Y O
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ISSN	1083-4877 1573-9139
DOI	10.1007/s11148-024-00899-1

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Abstract	Polymorphic transformations of the first and second kind of the type C ordered cubic structure into the type C 1 disordered structure were found during heating of samples of Y 2 O 3 oxide grade (99.990%) for phosphors in the range 500 – 1100°C in air and vacuum. The phase transformations proceeded without changing the chemical composition of oxygen in yttrium oxide. The mechanism of these transformations was determined. The chemical composition of oxygen in cubic C 1 Y 2 O 3 was stable up to 1750°C in air and up to 1500°C in vacuum. The change in the chemical composition of Y 2 O 3– x with respect to the oxygen content in the C 1 type cubic phase was studied. This structure was stable up to 2200°C in air and up to 1800°C in vacuum. The disordered type C 1 phase decomposed at these temperatures into the ordered type C x phase and a monoclinic type B phase. It was theoretically substantiated and experimentally confirmed for the first time that when samples were heated in the range 2100 – 2200°C in vacuum and the oxygen stoichiometry deviated to the composition YO 1.37 , the type C x cubic phase decomposed into two cubic phases: type F with anionic vacancies and lattice parameter a = 0.5265 nm (space group Fm 3 m ) and type C 11 cubic phase with color centers and lattice parameter a = 1.0652 nm (space of group Ia 3). The refractive indices of these phases were determined. The type F and C 11 phases were stable when heated in air to 1300°C. The yttrium oxide samples were oxidized in air in the range 1300 – 1400°C to the composition Y 2 O 3 . The energy of oxygen migration into the yttrium oxide lattice was determined. The diffusion rate of oxygen during oxidation was calculated. The diffusion rate was found to depend on the temperature of oxidation and holding.
AbstractList	Polymorphic transformations of the first and second kind of the type C ordered cubic structure into the type C1 disordered structure were found during heating of samples of Y2O3 oxide grade (99.990%) for phosphors in the range 500 – 1100°C in air and vacuum. The phase transformations proceeded without changing the chemical composition of oxygen in yttrium oxide. The mechanism of these transformations was determined. The chemical composition of oxygen in cubic C1 Y2O3 was stable up to 1750°C in air and up to 1500°C in vacuum. The change in the chemical composition of Y2O3–x with respect to the oxygen content in the C1 type cubic phase was studied. This structure was stable up to 2200°C in air and up to 1800°C in vacuum. The disordered type C1 phase decomposed at these temperatures into the ordered type Cx phase and a monoclinic type B phase. It was theoretically substantiated and experimentally confirmed for the first time that when samples were heated in the range 2100 – 2200°C in vacuum and the oxygen stoichiometry deviated to the composition YO1.37, the type Cx cubic phase decomposed into two cubic phases: type F with anionic vacancies and lattice parameter a = 0.5265 nm (space group Fm3m) and type C11 cubic phase with color centers and lattice parameter a = 1.0652 nm (space of group Ia3). The refractive indices of these phases were determined. The type F and C11 phases were stable when heated in air to 1300°C. The yttrium oxide samples were oxidized in air in the range 1300 – 1400°C to the composition Y2O3. The energy of oxygen migration into the yttrium oxide lattice was determined. The diffusion rate of oxygen during oxidation was calculated. The diffusion rate was found to depend on the temperature of oxidation and holding. Polymorphic transformations of the first and second kind of the type C ordered cubic structure into the type C 1 disordered structure were found during heating of samples of Y 2 O 3 oxide grade (99.990%) for phosphors in the range 500 – 1100°C in air and vacuum. The phase transformations proceeded without changing the chemical composition of oxygen in yttrium oxide. The mechanism of these transformations was determined. The chemical composition of oxygen in cubic C 1 Y 2 O 3 was stable up to 1750°C in air and up to 1500°C in vacuum. The change in the chemical composition of Y 2 O 3– x with respect to the oxygen content in the C 1 type cubic phase was studied. This structure was stable up to 2200°C in air and up to 1800°C in vacuum. The disordered type C 1 phase decomposed at these temperatures into the ordered type C x phase and a monoclinic type B phase. It was theoretically substantiated and experimentally confirmed for the first time that when samples were heated in the range 2100 – 2200°C in vacuum and the oxygen stoichiometry deviated to the composition YO 1.37 , the type C x cubic phase decomposed into two cubic phases: type F with anionic vacancies and lattice parameter a = 0.5265 nm (space group Fm 3 m ) and type C 11 cubic phase with color centers and lattice parameter a = 1.0652 nm (space of group Ia 3). The refractive indices of these phases were determined. The type F and C 11 phases were stable when heated in air to 1300°C. The yttrium oxide samples were oxidized in air in the range 1300 – 1400°C to the composition Y 2 O 3 . The energy of oxygen migration into the yttrium oxide lattice was determined. The diffusion rate of oxygen during oxidation was calculated. The diffusion rate was found to depend on the temperature of oxidation and holding.
Author	Solovyeva, A. E.
Author_xml	– sequence: 1 givenname: A. E. surname: Solovyeva fullname: Solovyeva, A. E. email: aesolovyeva39@gmail.com organization: Sukhumi Institute of Physics and Technology, Academy of Sciences of Abkhazia
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Cites_doi	10.1016/0022-4596(90)90280-B 10.3390/cryst12111630 10.1149/1.2059204 10.1016/j.jeurceramsoc.2022.06.045 10.1017/S0885715600017760 10.1007/s11148-022-00667-z 10.17073/1683-4518-2023-7-42-51 10.1007/s11148-023-00783-4 10.1007/s11148-021-00579-4 10.1134/S106378341501028X 10.1016/B978-0-12-822446-5.00016-2 10.1557/JMR.1999.0065
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Snippet	Polymorphic transformations of the first and second kind of the type C ordered cubic structure into the type C 1 disordered structure were found during heating... Polymorphic transformations of the first and second kind of the type C ordered cubic structure into the type C1 disordered structure were found during heating...
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SubjectTerms	Ceramics Characterization and Evaluation of Materials Chemical composition Chemistry and Materials Science Color centers Composites Cubic lattice Decomposition Diffusion rate Glass Heating Lattice vacancies Materials Science Natural Materials Oxidation Oxygen Oxygen content Parameters Phase transitions Phases Phosphors Refractivity Stoichiometry Yttrium oxide
Title	Changes of Structural Properties in Polycrystalline Y2O3 during Heating in Air and Vacuum
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