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Manganese olivine II: Point defect relaxation
Q. Bai, Z. C. Wang, D. L. Kohlstedt
Earth and Environmental Sciences-Twin Cities
Research output
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Contribution to journal
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Article
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peer-review
4
Scopus citations
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Keyphrases
Cation Sublattices
11%
Chemical Diffusivity
11%
Coupled Diffusion
11%
Deconvolution
11%
Decreasing Temperature
11%
Defect Relaxation
100%
Deviation from Stoichiometry
11%
Diffusivity
11%
Electrical Conduction
22%
Electrical Conductivity
33%
Electron Holes
44%
High Temperature
11%
Kinetic Properties
11%
Low Temperature
11%
Manganese
100%
Manganese Vacancies
11%
Metal Mobility
11%
Metal Vacancy
11%
Mn Vacancy
22%
MnSiO3
11%
Olivine
100%
Olivine Crystals
33%
Order of Magnitude
22%
Oxygen Fugacity
22%
Point Defect Chemistry
11%
Point Defect Structure
11%
Rate Control
11%
Re-equilibration
11%
Relaxation Process
11%
Relaxation Rate
11%
Relaxation Time
22%
Silicate Olivine
22%
Single Crystal
11%
Straight Line Segment
11%
Temperature Effect
11%
Transition Metal Oxides
11%
Transition Metal Silicates
22%
Yield Value
11%
Material Science
Defect Structure
16%
Diffusivity
33%
Electrical Conductivity
50%
Manganese
100%
Point Defect
100%
Silicate
33%
Single Crystal
16%
Transition Metal
33%
Transition Metal Oxide
16%
Chemical Engineering
Diffusion
66%
Transition Metal
100%