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Oxygen Transfer at Metal-Reducible Oxide Nanocatalyst Interfaces: Contrasting Carbon Growth from Ethane and Ethylene
Ethan L. Lawrence,
Peter A. Crozier
Engineering of Matter, Transport and Energy, School for (IAFSE-SEMTE)
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
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Dive into the research topics of 'Oxygen Transfer at Metal-Reducible Oxide Nanocatalyst Interfaces: Contrasting Carbon Growth from Ethane and Ethylene'. Together they form a unique fingerprint.
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Engineering & Materials Science
Nanocatalysts
100%
Ethane
73%
Ethylene
60%
Oxides
49%
Oxygen
46%
Hydrocarbons
43%
Carbon
43%
Metals
37%
Metal nanoparticles
27%
Dehydrogenation
23%
Cerium oxide
20%
Reforming reactions
18%
Catalysts
13%
Catalysis
10%
Aberrations
10%
Graphene
9%
Gases
9%
Transmission electron microscopy
8%
Graphite
8%
Oxidation
7%
Thermodynamics
7%
Hydrogen
6%
Degradation
5%
Experiments
2%
Chemical Compounds
Ethane
52%
Hydrocarbon
35%
Oxide
31%
Dioxygen
28%
Carbon Atom
27%
Metal Nanoparticle
16%
Oxidative Dehydrogenation
9%
Gas
8%
Dehydrogenation
7%
Reduction
7%
Catalyst
6%
Graphite
6%
Graphene
5%
Transmission Electron Microscopy
5%
Catalysis
5%
Thermodynamics
5%
Hydrogen
4%
Surface
2%