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Driving force for the WO
3
(0 0 1) surface relaxation
I. N. Yakovkin,
M. Gutowski
School of Engineering & Physical Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
41
Citations (Scopus)
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Dive into the research topics of 'Driving force for the WO
3
(0 0 1) surface relaxation'. Together they form a unique fingerprint.
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Engineering
Driving Force
100%
Energy Engineering
100%
Cluster Size
50%
Energy Surface
50%
Illustrates
50%
Electronic State
50%
Terminated Surface
50%
Fermi Level
50%
INIS
surfaces
100%
relaxation
100%
tungsten oxides
100%
energy
18%
correlations
9%
simulation
9%
transition metals
9%
nanostructures
9%
transformations
9%
oxides
9%
density of states
9%
fermi level
9%
density functional method
9%
surface energy
9%
Chemistry
Surface Relaxation
100%
Electronic State
25%
Interfacial Energy
25%
Density Functional Theory
25%
Fermi Level
25%
Density of State
25%
Octahedral Crystal
25%
Relaxation
25%
Transition Metal Oxide
25%
Material Science
Density
100%
Transition Metal Oxide
50%
Surface Energy
50%
Crystalline Material
50%