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Hydrogen transport in nickel (111)
Roi Baer
, Yehuda Zeiri
Institute of Chemistry
Research output
:
Contribution to journal
›
Article
›
peer-review
74
Scopus citations
Overview
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Dive into the research topics of 'Hydrogen transport in nickel (111)'. Together they form a unique fingerprint.
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Keyphrases
(111) Surface
33%
Addition Effect
33%
Body Environment
33%
Classical Molecular Dynamics Simulations
33%
Correlated Motion
33%
Electron Density
33%
Electron-hole Pair
33%
Hamiltonian Methods
33%
Host Effect
33%
Hydrogen Bond Dynamics
33%
Hydrogen Pathway
33%
Hydrogen Recombination
66%
Hydrogen Transport
100%
Hydrogen Tunneling
33%
Kinetic Model
33%
Lattice Approximation
33%
Low Temperature
33%
Many-body
33%
Many-body Potentials
33%
Multi-mode
33%
Net Effect
33%
Nonadiabatic Interaction
33%
Order of Magnitude
33%
Potential Energy Barrier
33%
Potential Surface
33%
Primary Response
33%
Quantum Description
33%
Reaction Pathway
33%
Recombination Reactions
33%
Relaxation Rate
33%
Spectral Density
33%
Subsurface Hydrogen
33%
Suppression of Tunneling
33%
Surface Hydrogen
100%
Surface Recombination Rate
33%
Surface Sites
33%
Thermal Desorption Spectrum
33%
Thermal Programmed Desorption
33%
Tunneling
33%
Tunneling Dynamics
66%
Tunneling Rate
66%
Two-level System
33%
Engineering
Carrier Concentration
16%
Computer Simulation
16%
Energy Barrier
16%
Hole Pair
16%
Kinetic Model
16%
Low-Temperature
16%
Multimode
16%
Net Effect
16%
Potential Energy
16%
Recombination Reaction
16%
Subsurface
66%
Surface Potential
16%
Surface Site
16%
Tunnel Construction
100%
Physics
Desorption
100%
Electron Density
50%
Holes (Electron Deficiencies)
50%
Molecular Dynamics
50%
Potential Energy
50%
Recombination Reaction
50%
Chemistry
Chemical Kinetics Characteristics
8%
Desorption
16%
Electron Density
8%
Electron-Hole Pair
8%
Hydrogen
100%
Many-Body Potential
8%
Molecular dynamics simulation
8%
Potential Energy Barrier
8%
Relaxation
8%
Surface Recombination
8%
Material Science
Carrier Concentration
14%
Density
14%
Desorption
28%
Surface (Surface Science)
100%