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Kinetic control of oxygen interstitial interaction with TiO
2
(110) via the surface Fermi energy
Heonjae Jeong
,
Elif Ertekin
,
Edmund G. Seebauer
Mechanical Science and Engineering
Materials Research Lab
National Center for Supercomputing Applications (NCSA)
Chemical and Biomolecular Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
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Dive into the research topics of 'Kinetic control of oxygen interstitial interaction with TiO
2
(110) via the surface Fermi energy'. Together they form a unique fingerprint.
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Keyphrases
TiO2(110)
100%
Kinetic Control
100%
Fermi Energy
100%
Oxygen Interstitials
100%
Interstitial Atoms
75%
Rate Expression
50%
First-principles Calculations
50%
Interconversion
50%
Pre-exponential Factor
50%
Activation Energy
25%
Solid Phase
25%
Rate-determining Step
25%
Semiconducting Oxides
25%
Gas Phase
25%
Reaction Pathway
25%
Langmuir
25%
Surface Influence
25%
Atomically Clean Surfaces
25%
Microkinetic Model
25%
Microkinetic Modeling
25%
Intentional Control
25%
Engineering
Interstitial Atom
100%
Interstitial Oxygen
100%
Fermi Energy
100%
Rate Expression
66%
Pre-Exponential Factor
66%
Activation Energy
33%
Mesoscale
33%
Gas-Phase
33%
Chemistry
First Principle
100%
Titanium Dioxide
100%
Reaction Activation Energy
50%
Rate-Determining Step
50%
microkinetic model
50%
microkinetic modeling
50%
Material Science
Titanium Dioxide
100%
Surface (Surface Science)
100%
Oxide Compound
33%
Activation Energy
33%