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Variation of the preexponential factor and activation energy for lithium diffusion in cubic titanium disulfide
P. G. Bruce, M. Y. Saidi
School of Engineering & Physical Sciences
Research output
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Contribution to journal
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Article
›
peer-review
12
Citations (Scopus)
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INIS
activation energy
100%
diffusion
100%
disulfides
100%
impedance
33%
interactions
66%
ions
66%
lithium
100%
self-diffusion
66%
temperature dependence
33%
titanium
100%
transport
33%
variations
100%
Chemistry
Arrhenius Plot
33%
Disulfide
100%
Lithium
100%
Phase Composition
66%
Reaction Activation Energy
100%
Self-Diffusion
33%
Self-Diffusion Coefficient
33%
Titanium
100%
Material Science
Activation Energy
100%
Diffusivity
33%
Impedance
33%
Lithium
100%
Polymorphism
33%
Self-Diffusion
66%
Titanium
100%
Neuroscience
Behavior (Neuroscience)
50%
Self-Diffusion
100%
Pharmacology, Toxicology and Pharmaceutical Science
Disulfide
100%
Immunology and Microbiology
Self-Diffusion
100%