Thermodynamic stability field of the 123 and 124 phases in the Y2O3-BaO-Cu-O system

Zhigang Zhou; Alexandra Navrotsky

doi:10.1557/JMR.1993.3023

Thermodynamic stability field of the 123 and 124 phases in the Y2O3-BaO-Cu-O system

Zhigang Zhou, Alexandra Navrotsky

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23 Scopus citations

Abstract

The partial molar entropy of solution of oxygen in YBa2Cu3Ox, AYo, has been computed using equilibrium data and the recently measured partial molar enthalpy of oxygen. While Ah0 is independent of oxygen content (6 < x < 7), As0depends on x. The p0l, T location of phase equilibrium between the 123 and 124 superconducting phases is calculated. The standard free energies of interactions of the superconducting phases with carbon dioxide (C02 and water vapor (H20) have been assessed. The free energies of carbonation of the fully oxidized 123 and 124 phases are —323 ± 22 kJ mol-1 and —291 ± 32 kJ mol-1, respectively. The free energies of hydration of the 123 and 124 are —397 ± 22 kJ mol-1 and —469 ± 32 kJ mol-1, respectively. These large exothermic values show that degradation of these superconductors at ambient conditions is thermodynamically favorable.

Original language	English (US)
Pages (from-to)	3023-3031
Number of pages	9
Journal	Journal of Materials Research
Volume	8
Issue number	12
DOIs	https://doi.org/10.1557/JMR.1993.3023
State	Published - Dec 1993
Externally published	Yes

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

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10.1557/JMR.1993.3023

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title = "Thermodynamic stability field of the 123 and 124 phases in the Y2O3-BaO-Cu-O system",

abstract = "The partial molar entropy of solution of oxygen in YBa2Cu3Ox, AYo, has been computed using equilibrium data and the recently measured partial molar enthalpy of oxygen. While Ah0 is independent of oxygen content (6 < x < 7), As0depends on x. The p0l, T location of phase equilibrium between the 123 and 124 superconducting phases is calculated. The standard free energies of interactions of the superconducting phases with carbon dioxide (C02 and water vapor (H20) have been assessed. The free energies of carbonation of the fully oxidized 123 and 124 phases are —323 ± 22 kJ mol-1 and —291 ± 32 kJ mol-1, respectively. The free energies of hydration of the 123 and 124 are —397 ± 22 kJ mol-1 and —469 ± 32 kJ mol-1, respectively. These large exothermic values show that degradation of these superconductors at ambient conditions is thermodynamically favorable.",

author = "Zhigang Zhou and Alexandra Navrotsky",

year = "1993",

month = dec,

doi = "10.1557/JMR.1993.3023",

language = "English (US)",

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journal = "Journal of Materials Research",

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publisher = "Materials Research Society",

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T1 - Thermodynamic stability field of the 123 and 124 phases in the Y2O3-BaO-Cu-O system

AU - Zhou, Zhigang

AU - Navrotsky, Alexandra

PY - 1993/12

Y1 - 1993/12

N2 - The partial molar entropy of solution of oxygen in YBa2Cu3Ox, AYo, has been computed using equilibrium data and the recently measured partial molar enthalpy of oxygen. While Ah0 is independent of oxygen content (6 < x < 7), As0depends on x. The p0l, T location of phase equilibrium between the 123 and 124 superconducting phases is calculated. The standard free energies of interactions of the superconducting phases with carbon dioxide (C02 and water vapor (H20) have been assessed. The free energies of carbonation of the fully oxidized 123 and 124 phases are —323 ± 22 kJ mol-1 and —291 ± 32 kJ mol-1, respectively. The free energies of hydration of the 123 and 124 are —397 ± 22 kJ mol-1 and —469 ± 32 kJ mol-1, respectively. These large exothermic values show that degradation of these superconductors at ambient conditions is thermodynamically favorable.

AB - The partial molar entropy of solution of oxygen in YBa2Cu3Ox, AYo, has been computed using equilibrium data and the recently measured partial molar enthalpy of oxygen. While Ah0 is independent of oxygen content (6 < x < 7), As0depends on x. The p0l, T location of phase equilibrium between the 123 and 124 superconducting phases is calculated. The standard free energies of interactions of the superconducting phases with carbon dioxide (C02 and water vapor (H20) have been assessed. The free energies of carbonation of the fully oxidized 123 and 124 phases are —323 ± 22 kJ mol-1 and —291 ± 32 kJ mol-1, respectively. The free energies of hydration of the 123 and 124 are —397 ± 22 kJ mol-1 and —469 ± 32 kJ mol-1, respectively. These large exothermic values show that degradation of these superconductors at ambient conditions is thermodynamically favorable.

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Thermodynamic stability field of the 123 and 124 phases in the Y2O3-BaO-Cu-O system

Abstract

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