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Octahedral Rotation Preferences in Perovskite Iodides and Bromides
Joshua Young
*
,
James M. Rondinelli
*
Corresponding author for this work
Materials Science and Engineering
Research output
:
Contribution to journal
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Article
›
peer-review
120
Scopus citations
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Keyphrases
Iodide
100%
Perovskite
100%
Octahedral Rotation
100%
Bromide
100%
Oxides
66%
Chemical Factors
33%
Density Functional Calculations
33%
Electrostatic Interaction
33%
Halides
33%
Phase Transition
33%
Perovskite Oxide
33%
A-site Cations
33%
One-axis
33%
Covalency
33%
Tetragonal Phase
33%
Opposite Effects
33%
Displacive Transition
33%
A-site
33%
Iodide Anion
33%
Rigid Rotation
33%
Bond Valence
33%
Rotation Pattern
33%
Phase Rotation
33%
Bromide Anion
33%
Chemistry
Electrostatic Interaction
100%
Bromine Ion
100%
Iodine Ion
100%
Halide
100%
Density Functional Theory
100%
Material Science
Oxide Compound
100%
Halide
33%
Electrostatic Interaction
33%
Density
33%