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Thermodynamic modeling of the (U,La)O
2±x
solid solution phase
Dongwon Shin
, Theodore M. Besmann
Microstructural Evolution Modeling
Research output
:
Contribution to journal
›
Article
›
peer-review
23
Scopus citations
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Dive into the research topics of 'Thermodynamic modeling of the (U,La)O
2±x
solid solution phase'. Together they form a unique fingerprint.
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Chemistry
Solid Solutions
100%
Lanthanoid Atom
66%
Partial Pressure
66%
Phase Composition
33%
First Principle
33%
Density Functional Theory
33%
Phase Stability
33%
Gibbs Free Energy
33%
Uranium Dioxide
33%
Mixed Metal Oxide
33%
Calcium Fluoride
33%
Chemical Potential
33%
Metal Ion
33%
stability
33%
Fission Product
33%
Engineering
Solid Solutions
100%
Interaction Parameter
66%
Good Agreement
33%
Sublattice
33%
Oxygen Partial Pressure
33%
Mols
33%
Thermodynamic Model
33%
Fission Product
33%
Chemical Potential
33%
Phase Stability
33%
Partial Pressure
33%
Phase Composition
33%
Gibbs Free Energy
33%
Material Science
Thermodynamics Modeling
100%
Solid Solutions
100%
Lanthanide Series
66%
Metal Oxide
33%
Density
33%
Uranium Dioxide
33%
Phase Composition
33%
Fission Product
33%
Biochemistry, Genetics and Molecular Biology
Solution and Solubility
100%
Partial Pressure
20%
Oxygen Tension
20%
Calcium Fluoride
20%