INIS
plasma
100%
low pressure
78%
nanoparticles
72%
precursor
67%
catalysts
56%
pressure (plasma)
53%
oxidation
50%
coatings
50%
morphology
43%
organometallic compounds
42%
carbon
35%
fabrication
34%
chemical state
33%
synthesis
32%
oxygen
31%
solids
30%
nanomaterials
30%
metals
28%
surfaces
28%
plasma chemistry
25%
pressure range giga pa
25%
graphene
25%
processing
24%
nickel
21%
annealing
20%
nucleation
17%
values
16%
decomposition
16%
fcc lattices
15%
aluminium nitrides
15%
solvents
14%
power
14%
oxidation state
14%
size
14%
x-ray diffraction
13%
x-ray photoelectron spectroscopy
13%
deposition
12%
nanostructures
12%
powders
11%
applications
9%
energy
9%
catalysis
9%
errors
8%
stability
8%
transmission electron microscopy
8%
radiowave radiation
8%
gels
8%
environment
8%
emission spectroscopy
8%
environmental impacts
6%
Keyphrases
Resistance Behavior
50%
Ni@C
37%
Low-pressure Plasma Treatment
37%
Catalyst Materials
33%
Oxidation Resistance
25%
TiAlN Coating
25%
Surfing
25%
Compressive Stress
25%
Plasma Synthesis
25%
Mechanistic Approach
25%
Low-pressure Plasma
25%
Simultaneous Treatment
25%
Structural Behavior
25%
Graphene-based Nanomaterials
25%
Nickel Nanoparticles (NiNPs)
25%
Solid Precursor
25%
Catalyst Morphology
25%
Surface Science
25%
Mechanical Behavior
25%
Plasma Processing
25%
Material Fabrication
25%
Solid Powder
20%
Diffraction Ray
20%
Green Catalyst
20%
Organometallic Precursors
20%
Powder Precursor
20%
Temperature Duration
16%
Spinodal Decomposition
16%
Extended Duration
16%
Regret
12%
Sequential Treatment
12%
Discharge Condition
12%
Energetic Transition
12%
Ni-Co
12%
PtCo
12%
PtCo Nanoparticles
12%
Metal-carbon Catalyst
12%
Powder Mixture
12%
Waste-free
12%
Catalyst Synthesis
12%
Scalable Process
12%
Apologizing
12%
Inconvenience
12%
Numerical Value
12%
Alternative Solvents
12%
Pt-Ni Catalyst
12%
Solvent-free Method
12%
Nanomaterials
12%
Catalyst Support
12%
X Ray Diffraction
12%
Material Science
Nanoparticle
100%
Oxidation Reaction
64%
Chemical State
58%
Nucleation
47%
Metal Nanoparticle
41%
X-Ray Diffraction
39%
X-Ray Photoelectron Spectroscopy
39%
Emission Spectroscopy
33%
Transmission Electron Microscopy
33%
Oxidation Resistance
25%
Graphene
25%
Nanocrystalline Material
25%
Mechanical Property
25%
Xerogel
25%
Porous Carbon
25%
Catalyst Support
25%
Nanostructured Material
25%
Powder
16%
Analytical Method
16%
Catalysis
14%
Annealing
12%
Aluminum Nitride
12%
Energy Materials
8%
Surface Functionalization
8%
Gas Mixture
8%
Xerogels
8%
Proton-Exchange Membrane Fuel Cells
8%
Structural Behavior
6%
Al2O3
6%
Magnetron Sputtering
6%
Titanium Dioxide
6%
Thermal Stability
6%
Platinum
6%
Film
6%