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Real-time observations of ultra-thin iron oxide film growth on oxygen-deficient YSZ(001)
Ivan Ermanoski
, G. L. Kellogg
Research output
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Contribution to journal
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Article
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peer-review
6
Scopus citations
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Dive into the research topics of 'Real-time observations of ultra-thin iron oxide film growth on oxygen-deficient YSZ(001)'. Together they form a unique fingerprint.
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Engineering & Materials Science
Film growth
100%
Iron oxides
82%
Electron microscopy
81%
Oxide films
78%
Oxygen
50%
Low energy electron diffraction
47%
Substrates
44%
Lattice constants
31%
Coarsening
25%
Temperature
16%
Physics & Astronomy
iron oxides
68%
yttria-stabilized zirconia
68%
oxide films
56%
electron microscopy
40%
oxygen
38%
energy
18%
drying
15%
electron diffraction
13%
dissociation
12%
temperature
9%
configurations
8%
Chemical Compounds
Iron Oxide
59%
Liquid Film
30%
Low Energy Electron Diffraction
20%
Lattice Constant
17%
Electron Particle
17%
Spreading
16%
Energy
14%
Dissociation
11%
Surface
5%