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Effect of titania surface species on the chemisorption of CO and H
2
on polycrystalline nickel
G. B. Raupp
, J. A. Dumesic
Research output
:
Contribution to journal
›
Article
›
peer-review
69
Scopus citations
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Dive into the research topics of 'Effect of titania surface species on the chemisorption of CO and H
2
on polycrystalline nickel'. Together they form a unique fingerprint.
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Engineering & Materials Science
Chemisorption
100%
Titanium
63%
Nickel
61%
Adsorption
38%
Ultrahigh vacuum
20%
Temperature programmed desorption
20%
Metals
16%
Desorption
15%
Metal foil
14%
Activation energy
13%
Hydrogen
10%
Physics & Astronomy
chemisorption
72%
titanium
54%
nickel
52%
adsorption
30%
desorption
23%
metal particles
15%
ultrahigh vacuum
13%
foils
11%
retarding
10%
activation energy
9%
hydrogen
8%
metals
6%
temperature
3%
Chemical Compounds
Chemisorption
59%
Polycrystalline Solid
58%
Desorption
33%
Adsorption
32%
Foil
21%
Surface
20%
Metal
19%
Vacuum
17%
Reaction Activation Energy
15%
Hydrogen
11%
Amount
9%