Engineering & Materials Science
Uranium dioxide
100%
Synchrotron radiation
89%
Thin films
59%
Oxidation
55%
Uranium
54%
Core levels
50%
Binding energy
49%
Photoelectrons
49%
Ions
43%
Sputtering
40%
X ray photoelectron spectroscopy
38%
Fluorspar
25%
Electronic states
25%
Vacancies
21%
Photons
18%
Argon
17%
Kinetic energy
16%
Activation energy
16%
Temperature
12%
Defects
10%
Physics & Astronomy
dioxides
68%
uranium
63%
synchrotron radiation
56%
oxidation
46%
thin films
32%
escape
30%
photoelectrons
28%
binding energy
26%
photoelectron spectroscopy
25%
sputtering
24%
ions
22%
fluorite
19%
metastable state
16%
ridges
15%
x rays
14%
kinetic energy
12%
argon
12%
activation energy
11%
high resolution
9%
temperature
9%
photons
8%
defects
8%
electronics
8%
energy
4%
Chemical Compounds
Synchrotron Radiation
67%
Core Level
37%
Sputtering
34%
Photoelectron
32%
Oxidation Reaction
28%
X-Ray Photoelectron Spectroscopy
22%
Surface
20%
Fluorite
18%
Ion
18%
Kinetic Energy
18%
Photon
15%
Energy
14%
Binding Energy
13%
Dimension
11%
Electronic State
11%
Reaction Activation Energy
10%
Molecular Cluster
10%
Diffusion
9%