Keyphrases
316 Stainless Steel
9%
Active Core
9%
Amorphous Carbon
18%
Carbon Nanotubes
100%
Carbon Source
9%
Catalyst Substrate
9%
Contact Spaces
9%
Fe3C
9%
Flame Synthesis
9%
Heating Effect
9%
High Temperature
9%
Impurities
18%
Initial Treatment
9%
Iron Oxide
9%
Mass Increase
9%
Nickel Coating
100%
Nickel Layer
18%
Nickel Loading
9%
Oxidation Heat Treatment
9%
Oxidation Temperature
9%
Polypropylene Waste
100%
SS316L
27%
Stainless Steel 316
100%
Substrate Surface
9%
Synthesis Reactor
9%
Thermal Stability
9%
Wet Impregnation Method
9%
Material Science
Amorphous Carbon
18%
Carbon Nanotube
100%
Energy-Dispersive X-Ray Spectroscopy
9%
Flame Synthesis
9%
Heat Treatment
9%
Nickel Coating
100%
Oxidation Reaction
9%
Polypropylene
100%
Scanning Electron Microscopy
9%
Stainless Steel
100%
Surface (Surface Science)
18%
Thermal Stability
9%
Thermogravimetric Analysis
9%
X-Ray Diffraction
27%
Engineering
Amorphous Carbon
18%
Carbon Nanotube
100%
Flame Synthesis
9%
Heat Treatment
9%
Nickel Layer
18%
Peak Intensity
9%
Reactant
9%
Stainless Steel
100%
Substrate Surface
9%
Chemical Engineering
Carbon Nanotube
100%
Flame Synthesis
9%
Polypropylene
100%
Synthesis Reactor
9%
Wet Impregnation Method
9%