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Asymmetric cation nonstoichiometry in spinels: Site occupancy in Co
2
ZnO
4
and Rh
2
ZnO
4
Tula R. Paudel
, Stephan Lany
, Mayeul D'Avezac
, Alex Zunger
,
Nicola H. Perry
, Arpun R. Nagaraja
, Thomas O. Mason
, Joanna S. Bettinger
, Yezhou Shi
, Michael F. Toney
Research output
:
Contribution to journal
›
Article
›
peer-review
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Dive into the research topics of 'Asymmetric cation nonstoichiometry in spinels: Site occupancy in Co
2
ZnO
4
and Rh
2
ZnO
4
'. Together they form a unique fingerprint.
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Keyphrases
Spinel
100%
Site Occupancy
100%
Cation Nonstoichiometry
100%
First-principles
66%
Non-stoichiometric
66%
Nonstoichiometry
66%
Competing Phases
66%
Stoichiometry
33%
Extremely Low Temperature
33%
Isostructural
33%
Diffraction Data
33%
Finite Temperature
33%
Phase Boundary
33%
Solid Solution
33%
Anomalous Diffraction
33%
Bulk Ceramics
33%
Defect Calculations
33%
Sintered Sample
33%
Rietveld Refinement
33%
Line Compound
33%
Chemistry
Reaction Stoichiometry
100%
First Principle
100%
Enthalpy
50%
Phase Interface
50%
Finite-Temperature
50%
Rietveld Refinement
50%
Solid Solutions
50%
Physics
Spinel
100%
First Principle
66%
Stoichiometry
66%
Enthalpy
33%
Finite-Temperature
33%
Solid Solutions
33%
Rietveld Refinement
33%
Material Science
Rietveld Refinement
100%
Solid Solutions
100%
Phase Interface
100%
Mathematics
Asymmetric
100%