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Temperature programmed desorption of ethylene and acetaldehyde on uranium oxides. Evidence of furan formation from ethylene.
H Madhavaram, Hicham Idriss
School of Natural & Computing Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
23
Citations (Scopus)
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Dive into the research topics of 'Temperature programmed desorption of ethylene and acetaldehyde on uranium oxides. Evidence of furan formation from ethylene.'. Together they form a unique fingerprint.
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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%