Temperature programmed desorption of ethylene and acetaldehyde on uranium oxides. Evidence of furan formation from ethylene.

Physics & Astronomy

• furans 96%
• uranium oxides 95%
• acetaldehyde 92%
• ethylene 62%
• desorption 56%
• carbon 42%
• oxygen 38%
• products 24%
• temperature 18%
• alkenes 16%
• fluorite 15%
• molecules 13%
• selectivity 12%
• depletion 11%
• cations 10%
• adsorption 9%
• oxidation 9%

Engineering & Materials Science

• Acetaldehyde 100%
• Temperature programmed desorption 97%
• Uranium 74%
• Ethylene 66%
• Oxides 55%
• Oxygen 51%
• Carbon 48%
• Molecules 25%
• Fluorspar 21%
• Positive ions 15%
• Olefins 15%
• Desorption 14%
• Adsorption 12%
• Oxidation 11%

Chemical Compounds

• Uranium Oxide 90%
• Acetaldehyde 65%
• Furan 61%
• Desorption 49%
• Dioxygen 31%
• Reductive Coupling 20%
• Fluorite 19%
• Carbon Number 18%
• Surface 15%
• Alkene 11%
• Molecule 11%
• Surface Area 10%
• Cation 9%
• Adsorption 7%
• Carbon Atom 7%
• Reduction 7%
• Oxidation Reaction 7%