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Thermal stability of Li films on polycrystalline molybdenum substrates
O. Fasoranti,
B. E. Koel
Chemical & Biological Engineering
Chemistry
High Meadows Environmental Institute
Mechanical & Aerospace Engineering
Princeton Institute for the Science and Technology of Materials
Research output
:
Contribution to journal
›
Article
›
peer-review
4
Scopus citations
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Engineering & Materials Science
Activation energy
11%
Auger electron spectroscopy
16%
Chemical analysis
6%
Coatings
8%
Desorption
24%
Experiments
3%
Fusion reactors
14%
Hot Temperature
5%
Ions
19%
Lithium
94%
Molybdenum
100%
Molybdenum alloys
16%
Monolayers
14%
Plasmas
9%
Scattering
20%
Substrates
60%
Temperature
8%
Temperature programmed desorption
16%
Thermodynamic stability
88%
Titanium
51%
Ultrahigh vacuum
16%
Zirconium
67%
Physics & Astronomy
activation energy
7%
Auger spectroscopy
10%
coatings
7%
desorption
28%
electron spectroscopy
10%
energy
6%
fusion reactors
11%
ion scattering
25%
lithium
75%
molybdenum
84%
molybdenum alloys
15%
temperature
3%
thermal stability
74%
titanium
44%
ultrahigh vacuum
10%
Chemical Compounds
Auger Electron Spectroscopy
12%
Coating Agent
6%
Desorption
24%
Energy
10%
Ion
8%
Liquid Film
41%
Monolayer
8%
Polycrystalline Solid
76%
Purity
5%
Reaction Activation Energy
7%
Substance Spectroscopy
9%
Thermal Stability
56%
Titanium Alloy
13%
Vacuum
8%