INIS
porous materials
100%
silicon
100%
carbon
66%
supercapacitors
50%
electrodes
41%
films
33%
power density
33%
electrolytes
33%
solid electrolytes
25%
polymers
25%
surfaces
16%
increasing
16%
energy density
16%
electrochemistry
16%
metals
16%
capacitance
16%
fabrication
16%
oxides
16%
transition metals
16%
graphene
16%
performance
16%
curing
16%
etching
16%
heat
16%
defense
8%
substrates
8%
passivation
8%
plates
8%
life cycle
8%
surface area
8%
sponges
8%
deposits
8%
lifetime
8%
dynamics
8%
doped materials
8%
chemical vapor deposition
8%
failures
8%
vehicles
8%
acceleration
8%
efficiency
8%
evaluation
8%
gels
8%
thickness
8%
aerospace industry
8%
smart grids
8%
salts
8%
ruthenium oxides
8%
stability
8%
mixing
8%
voltametry
8%
carbon fibers
8%
electric-powered vehicles
8%
demand
8%
speed
8%
specific surface area
8%
charges
8%
Material Science
Porous Silicon
100%
Supercapacitors
66%
Density
44%
Solid Electrolyte
33%
Silicon
33%
Carbon Films
33%
Capacitance
22%
Surface (Surface Science)
22%
Transition Metal Oxide
22%
Energy Density
22%
Graphene
22%
Porous Carbon
22%
Film
11%
Mechanical Stress
11%
Electrochemical Etching
11%
Aerogel
11%
Delamination
11%
Chemical Vapor Deposition
11%
Carbon Fiber
11%
Contact Area
11%
Polymer Electrolyte
11%
Cyclic Voltammetry
11%
Engineering
Porous Silicon
100%
Supercapacitor
44%
Power Density
44%
Electrochemical Capacitor
22%
Composite Structure
22%
Graphene
22%
Flux Density
22%
Porous Metal
11%
Polymer Material
11%
Specific Surface Area
11%
Passivation
11%
Porosity
11%
Carbon Aerogel
11%
Electrochemical Etching
11%
Electrode Structure
11%
Contact Area
11%
Pore Diameter
11%
Chemical Vapor Deposition
11%
Fabrication Technique
11%
Aerospace Engineering
11%
Smart Grid
11%
Cycle Life
11%
Active Material
11%
Delamination
11%
Silicon Surface
11%
Porous Structure
11%
Mechanical Stress
11%
Mobile Communication
11%
Electrospun
11%
Silicon Electrode
11%
Nanopillar
11%
Electric Vehicle
11%