Chemistry
Plasma
100%
Titanium Dioxide
87%
Surface
86%
Nanoparticle
81%
Liquid Film
65%
Procedure
60%
Carbon
58%
Pressure
58%
Synthesis (Chemical)
58%
Structure
36%
X-Ray Photoelectron Spectroscopy
34%
Nitrogen
34%
Phase Composition
33%
Sensor
32%
Correlation
29%
Nanohybrid
29%
Red
29%
Topography
29%
Nanosheet
29%
Band Gap
29%
Electrolyte
29%
Toluene
29%
Photoluminescence
29%
Vanadium
29%
Orange
29%
Nitride
29%
Nanorod
29%
Titanium Dioxide
24%
Oxide
23%
Zinc Oxide
23%
Application
23%
Catalysis
22%
Sample
20%
Dioxygen
20%
Concentration
20%
Surface Roughness
19%
Metal
19%
X-Ray Diffraction
18%
Particle Size
18%
Aqueous Solution
18%
Solid
15%
Optical Property
14%
Atomic Force Microscopy
14%
Thickness
14%
Time
13%
Conduction Band
11%
Metallocene
11%
Ammonia
11%
Cyclic Voltammetry
10%
Nanomaterial
10%
Material Science
Surface
72%
Supercapacitors
69%
Electrode
68%
Electrochemical Capacitor
59%
Nitride Compound
58%
Zinc Oxide
58%
Capacitance
47%
Nanocrystalline Material
42%
Silicon
38%
Thin Films
36%
Crystalline Material
33%
Cyclic Voltammetry
31%
Annealing
29%
Vanadium
29%
Oxide
29%
Electrochemical Sensor
29%
Photoluminescence
29%
Nanosheet
29%
ZnO
29%
Nanorods
29%
Nanowires
29%
Chromium
29%
Electrolyte
28%
Catalysis
26%
Surface Roughness
19%
X-Ray Photoelectron Spectroscopy
19%
Temperature
18%
X-Ray Diffraction
17%
Material
15%
Film
14%
Optical Property
14%
Atomic Force Microscopy
14%
Metal
14%
Gas Mixture
13%
Argon
13%
Magnetron Sputtering
13%
Solid
13%
Void Fraction
9%
Physical Vapor Deposition
9%
Energy Density
9%
Dielectric Spectroscopy
9%
Nitrogen-Doped Carbon Material
9%
Devices
9%
Application of Sensors
9%
Morphology
9%
Electrochemical Property
9%
Electrochemical Capacitance
7%
Crystal Structure
7%
Microstructure
7%
Catalyst
7%
Physics
Low Pressure
58%
Nitrogen
48%
X Ray Spectroscopy
40%
Au Nanoparticles
37%
Thin Films
29%
Gaps
29%
ZnO
29%
Correlation
29%
Adsorption
29%
Stabilization
29%
Metal
29%
Zinc
24%
Fractal
21%
Crystal Structure
16%
Oxygen
15%
Optical Properties
14%
Surface Roughness
14%
Oxide
14%
Independent Variables
14%
Atomic Force Microscopy
14%
X Ray Diffraction
13%
Solid State
13%
Plasma Jet
13%
Spectrometer
12%
Deposition
12%
Differences
11%
Catalysis
10%
Magnitude
9%
Simulation
9%
Magnetron Sputtering
9%
Gold Nanoparticle
9%
Photoelectron
9%
Regimes
9%
Increasing
9%
Sites
9%
Oxygen Vacancy
9%
X Ray
9%
Density Functional Theory
9%
Raman Spectra
9%
Blue Shift
9%
Cores
9%
Phase Transformations
9%
Uranian Satellites
9%
Vacuum
9%
Substrates
8%
Titanium Dioxide
7%
Waste
7%
Ratios
7%
Environment
7%
Temperature
7%
