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Kinetics of catalytic OH dissociation on metal surfaces
Ernst D. German
*
,
Moshe Sheintuch
*
Corresponding author for this work
Research output
:
Contribution to journal
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Article
›
peer-review
9
Scopus citations
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Dive into the research topics of 'Kinetics of catalytic OH dissociation on metal surfaces'. Together they form a unique fingerprint.
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Physics & Astronomy
activation energy
70%
dissociation
78%
electrons
20%
energy
14%
hydrogen
29%
isotope effect
52%
kinetics
57%
metal surfaces
94%
perturbation theory
40%
potential energy
40%
surface reactions
49%
transition probabilities
97%
tunnels
44%
Engineering & Materials Science
Activation energy
100%
Electrons
48%
Hydrogen
38%
Isotopes
58%
Metals
61%
Potential energy surfaces
79%
Rate constants
59%
Surface reactions
68%
Tunnels
40%
Chemical Compounds
Dissociation
68%
Electron Particle
25%
Energy
22%
Hydrogen
24%
Kinetic Isotope Effect
52%
Metal
43%
Perturbation Theory
55%
Potential Energy Surface
45%
Rate Constant
31%
Reaction Activation Energy
66%
Surface
30%
Surface Reaction
49%