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Iron Oxide Nanoparticles on Support Materials
N.A. Krans
Sub Inorganic Chemistry and Catalysis
Research output
:
Thesis
›
Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Dive into the research topics of 'Iron Oxide Nanoparticles on Support Materials'. Together they form a unique fingerprint.
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Keyphrases
Iron Oxide Nanoparticles
100%
Support Material
100%
Fischer-Tropsch to Olefins
100%
Catalytic Reaction
80%
Size-and-shape
60%
Particle Size
60%
Colloidal Particles
40%
Iron Oxide
40%
Metal Nanoparticles
40%
Particle Shape
40%
Colloidal Iron
40%
Active Surface
40%
Support Interaction
40%
High Pressure
20%
Well-defined
20%
Metal Particles
20%
Active Sites
20%
High Selectivity
20%
Synthesis Conditions
20%
High Temperature
20%
Colloids
20%
Catalytic Performance
20%
Nanoparticles
20%
High Activity
20%
Lower Olefins
20%
Particle Growth
20%
Catalyst Stability
20%
Enhanced Activity
20%
Specific Conditions
20%
Synthesis Gas
20%
Property Condition
20%
Enhanced Stability
20%
Nanoparticle Synthesis
20%
Active Metal
20%
Metal Surface
20%
Iron Particles
20%
Enhanced Selectivity
20%
Model Catalyst
20%
Morphological Distribution
20%
Metal Oxide Nanoparticles
20%
Harsh Environment
20%
Nickel-cobalt
20%
Sustainable Process
20%
Colloidal Nanoparticles
20%
Support Properties
20%
Particle Stability
20%
Impregnated Catalyst
20%
Nanoparticle Deposition
20%
Inorganic Ligands
20%
In Situ Electron Microscopy
20%
Enhanced Control
20%
Particles Activity
20%
Improved Catalysts
20%
Iron-Cobalt
20%
Excellent Catalytic Performance
20%
Colloidal Metal
20%
New Catalysts
20%
Alternative Catalysts
20%
Material Science
Catalysis
100%
Iron Oxide
100%
Nanoparticle
100%
Surface (Surface Science)
50%
Metal Nanoparticle
50%
Particle Growth
25%
Nanoparticle Synthesis
25%
Metal Surface
25%
Cobalt
25%
Electron Microscopy
25%
Metal Oxide
25%
Particle Stability
25%
Colloidal Nanoparticles
25%
Synthesis Gas
25%
Chemical Engineering
Olefin
100%
Nanoparticle
100%
Iron Oxide
100%
Catalytic Reaction
66%
Metal Nanoparticle
33%
Colloid
16%
Colloidal Metal
16%