Physics & Astronomy
pyrolytic graphite
100%
lithium
68%
oxidation
57%
thin films
40%
energy dissipation
31%
electron energy
29%
Auger spectroscopy
25%
electron spectroscopy
25%
high resolution
23%
lithium hydroxides
22%
graphite
22%
spectroscopy
20%
lithium hydrides
20%
vacuum chambers
13%
ultrahigh vacuum
12%
film thickness
10%
fusion
10%
gases
6%
Engineering & Materials Science
Lithium
86%
Graphite
77%
Thin films
73%
Oxidation
68%
Monolayers
63%
Electron energy loss spectroscopy
52%
Temperature
31%
Auger electron spectroscopy
30%
Ultrahigh vacuum
15%
Hydrides
12%
Film thickness
10%
Fusion reactions
7%
Gases
5%
Chemical Compounds
Graphite
57%
High Resolution Electron Energy Loss Spectroscopy
53%
Monolayer
48%
Oxidation Reaction
35%
Liquid Film
31%
Auger Electron Spectroscopy
29%
Lithium Hydride
19%
Vacuum Chamber
18%
Lithium Hydroxide
17%
Surface
8%
Environment
7%
Gas
6%