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Keyphrases
Graphite
100%
Porous Silicon
100%
Silicon Material
100%
Li-ion Battery
100%
Boron Doping
100%
Anode Material
100%
Nanostructured Silicon
100%
Nanoparticles
50%
Porosity
50%
Material Properties
50%
Major Contributor
50%
Surface Passivation
50%
Particle Size Effect
50%
Electrolyte
50%
Rate Capability
50%
Low Porosity
50%
Low Dose Rate
50%
Electrical Contact
50%
Volume Change
50%
Carbide Layer
50%
Maximum Particle Size
50%
Volumetric Capacity
50%
Charge-discharge Cycling
50%
Lithiation Kinetics
50%
Cyclability
50%
Mesoporous Silicon
50%
Electrochemical Anodization
50%
Capacity Decay
50%
High Specific Capacity
50%
Gravimetric Capacity
50%
INIS
silicon
100%
electrochemistry
100%
porous materials
100%
anodes
100%
lithium ion batteries
100%
capacity
66%
nanostructures
50%
values
33%
decay
33%
comparative evaluations
33%
particle size
33%
boron
33%
graphite
33%
porosity
33%
layers
16%
performance
16%
levels
16%
surfaces
16%
nanoparticles
16%
kinetics
16%
losses
16%
volume
16%
charges
16%
carbides
16%
electrolytes
16%
electrodes
16%
electric contacts
16%
passivation
16%
anodization
16%
Material Science
Lithium Ion Battery
100%
Anode Material
100%
Silicon
100%
Porous Silicon
100%
Silicon Material
66%
Boron
66%
Carbide
33%
Surface Passivation
33%
Materials Property
33%
Anodizing
33%
Nanoparticle
33%
Engineering
Lithium Ion Battery
100%
Porous Silicon
100%
Silicon Material
66%
Porosity
66%
Size of Particle
33%
Passivation
33%
Rate Capability
33%
Electrical Contact
33%
Anodization
33%
Nanoparticles
33%