INIS
applications
100%
supercapacitors
87%
graphene
61%
electrolytes
59%
oxides
53%
polymers
53%
electrodes
48%
substrates
45%
electrochemistry
43%
devices
39%
thin films
35%
performance
34%
ionic liquids
33%
films
33%
dielectric constant
31%
synthesis
31%
antioxidants
29%
surfaces
28%
pva
26%
drug delivery
26%
design
26%
capacitance
26%
x-ray diffraction
25%
peaks
24%
zinc oxides
23%
extraction
22%
voltametry
21%
cost
21%
impedance
21%
fourier transformation
20%
fabrication
19%
carbon
18%
flavonoids
17%
doped materials
17%
matrices
17%
acetone
17%
membranes
17%
phenols
17%
concentration
17%
lasers
16%
solvents
16%
variations
16%
metals
16%
morphology
15%
ions
15%
annealing
15%
solutions
15%
additives
15%
values
14%
nickel oxides
13%
Material Science
Supercapacitors
80%
Electrolyte
43%
X-Ray Diffraction
38%
Electrode
34%
Capacitance
32%
Devices
30%
Reduced Graphene Oxide
26%
Chitosan
26%
Polymer Electrolyte
26%
Graphene
25%
Conductivity
24%
Thin Films
23%
Biopolymer
22%
Zinc Oxide
21%
Probe
20%
Ionic Conductivity
17%
Amorphous Material
16%
Material
16%
Permittivity
16%
Ionic Liquid
15%
Laser
15%
Dielectric Spectroscopy
15%
Defect
14%
Field Emission Scanning Electron Microscopy
13%
Magnesium
13%
Microelectronics
13%
Electron Irradiation
13%
Electrical Property
13%
Clay
13%
Liquid Crystal
13%
Microfabrication
13%
Plastics
13%
ZnO
13%
Nanoclusters
13%
Microstructure
13%
Polymer Matrix
13%
Metal Oxide
13%
Polymer Blend
13%
Indium Tin Oxide
13%
Annealing
13%
Gel
13%
Electronic Device
13%
Surface Analysis
13%
Functional Material
13%
Organic Electronics
13%
Lineshape
10%
Casting
10%
Solution
10%
Carrier Concentration
10%
Thermal Stability
9%
Chemistry
Liquid Film
33%
Ionic Liquid
26%
Carbon
26%
Nanoclusters
26%
Dielectric Constant
20%
Surface
18%
Analytical Method
17%
Application
16%
Sample
16%
Fourier Transform Infrared Spectroscopy
16%
Device
16%
Supercapacitors
15%
Procedure
15%
Gel
15%
Concentration
14%
Hydroquinone
13%
Liquid Crystal
13%
Humidity
13%
Electrical Property
13%
Microelectronics
13%
Leaf Like Crystal
13%
Qualitative Analysis
13%
Nanodiamond
13%
Spectroscopy
13%
Supercapacitors Performance
13%
Antioxidant Agent
13%
Nanomaterial
13%
Lithography
13%
Magnetic Property
13%
Bentonite
13%
Metal Oxide
13%
Magnesium Nitrate
13%
Polymer Electrolyte
13%
Thermogravimetric Analysis
13%
Alternating Current Method
13%
Ester
13%
Potential
13%
Azine
13%
Conductivity
10%
Nanodots
10%
Cyclic Voltammetry
10%
Electrolyte
9%
Polymer
8%
Electrode Material
8%
Zinc Oxide
8%
Environment
6%
Reaction Temperature
6%
Voltage
6%
Thermal Stability
6%
Surface Analysis
6%
