INIS
electrolytes
100%
diffusion
100%
simulation
100%
lithium ions
100%
solids
100%
solid electrolytes
30%
molecular dynamics method
20%
vacancies
20%
design
10%
gain
10%
radial distribution
10%
distribution
10%
ionic conductivity
10%
amplitudes
10%
crystals
10%
tools
10%
distribution functions
10%
activation energy
10%
interstitials
10%
Chemistry
Molecular Dynamics
100%
Lithium Ion
100%
Solid Electrolyte
100%
Procedure
60%
Rate
40%
Reaction Activation Energy
20%
Ionic Conductivity
20%
Vibration
20%
Density Functional Theory
20%
Radial Distribution Function
20%
Electrolyte
20%
Doping
20%
Crystalline Material
20%
Solid
20%
Engineering
Diffusion Process
100%
Computer Simulation
100%
Diffusivity
50%
Demonstrates
50%
Powerful Tool
50%
Battery (Electrochemical Energy Engineering)
50%
Design
50%
Codes
50%
Biochemistry, Genetics and Molecular Biology
Conductance
100%
Facilitated Diffusion
100%
Solid
40%
Dynamics
20%
Vibration
10%
Energy
10%
Crystalline Material
10%
Crystal
10%
Material Science
Conductivity
100%
Electrolyte
25%
Ionic Conductivity
25%
Activation Energy
25%
Crystalline Material
25%