INIS
nanoparticles
94%
surfaces
90%
electrochemistry
76%
zinc oxides
70%
electrodes
69%
plasma
58%
supercapacitors
56%
capacitance
55%
nanostructures
47%
carbon
47%
titanium oxides
47%
vanadium nitrides
47%
chromium nitrides
47%
electrolytes
46%
oxygen
45%
x-ray photoelectron spectroscopy
45%
films
43%
capacitors
42%
sputtering
40%
stability
34%
doped materials
33%
magnetrons
33%
nitrogen
31%
performance
29%
argon
28%
gold
28%
silicon
28%
stabilization
26%
thin films
26%
interactions
25%
topography
23%
synthesis
23%
photoluminescence
23%
pressure (plasma)
23%
configuration
23%
polystyrene
23%
cacti
23%
shells
23%
nanowires
23%
oranges
23%
low pressure
23%
tuning
23%
correlations
23%
wettability
23%
ammonia
21%
thickness
20%
substrates
17%
deposition
15%
applications
14%
emission
14%
Material Science
Nanoparticle
100%
Film
78%
Nitride Compound
70%
Titanium Dioxide
70%
Capacitance
69%
X-Ray Photoelectron Spectroscopy
59%
Supercapacitors
56%
Electrochemical Capacitor
55%
Zinc Oxide
47%
Vanadium
47%
Magnetron Sputtering
36%
Silicon
34%
Thin Films
33%
Gold Nanoparticle
31%
Density
28%
Oxide Compound
27%
Nanocrystalline Material
26%
Crystalline Material
26%
Annealing
23%
Photoluminescence
23%
ZnO
23%
Nanorods
23%
Nanowires
23%
Chromium
23%
Polystyrene
23%
Wettability
23%
Surface Topography
23%
Cyclic Voltammetry
21%
Catalysis
19%
X-Ray Diffraction
13%
Optical Property
11%
Physical Vapor Deposition
11%
Energy Density
11%
Metal Nanoparticle
11%
Surface Roughness
11%
Gas Mixture
11%
Dielectric Spectroscopy
7%
Nitrogen-Doped Carbon Material
7%
Electrochemical Property
7%
Electrochemical Capacitance
5%
Crystal Structure
5%
Surface Texture
5%
Carbon Dioxide
5%
Doping (Additives)
5%
Microscopy
5%
Oxygen Vacancy
5%
Sputter Deposition
5%
Keyphrases
On chip
23%
3D Silicon
23%
Silicon Nanowire Arrays
23%
Electrochemical Capacitor
23%
Micro-supercapacitors
23%
ZnO Nanorods
23%
Red Photoluminescence
23%
Nanohybrid Structure
23%
Direct-current Plasma
23%
Photoluminescence Enhancement
23%
TiO2 Nanocatalyst
23%
Dry Synthesis
23%
Cactus-like
23%
Stability Improvement
23%
Vanadium Nitride
23%
Electrochemical Stability
23%
Carbon Nanosheets
23%
Al-doped ZnO
23%
Bandgap Property
23%
Electrodes for Supercapacitors
23%
Electrolyte Composition
23%
Electrochemical Transduction
23%
Nitrogen Configuration
23%
Surface Interaction
23%
Maximum Energy Density
11%
High Areal Capacitance
11%
Energy Storage Properties
11%
CrN Film
11%
Electrolyte Accessibility
11%
GLAD Technique
11%
Electrochemical Energy Storage
11%
Porous Electrode
11%
H2SO4 Electrolyte
11%
Vacuum Annealing
11%
Conduction Band Minimum
9%
Zinc Oxide Nanorods
9%
Waste Solution
7%
Nanoparticle Generation
7%
Solid Metals
7%
N2 Plasma
7%
Solution Treatment
7%
Degradation Kinetics
7%
Plasma Degradation
7%
Solid Oxide
7%
PtCu Nanoparticles
7%
Supported Nanocatalyst
7%
Drying Methods
7%
PtCu
7%
3D Surface Topography
7%
Fractal Surface
7%