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A study on hydrogen absorption and dissolution in liquid lithium
M. Christenson
, D. Panici
, C. Moynihan
, J. Wendeborn
, J. Anderson
,
D. N. Ruzic
Nuclear, Plasma, and Radiological Engineering
Micro and Nanotechnology Lab
Office of the Provost and Executive Vice Chancellor
Electrical and Computer Engineering
Biomedical and Translational Sciences
Research output
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Contribution to journal
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Article
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peer-review
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Keyphrases
Lithium
100%
Hydrogen Dissolution
100%
Liquid Lithium
100%
Hydrogen Absorption
100%
Desorption
50%
Tritium
33%
Tungsten Fuzz
33%
Lithium Hydride
33%
Nanofeatures
33%
Surface Layer
16%
Surface Chemistry
16%
Hydrogen Isotopes
16%
Resistivity
16%
Temperature Programmed Desorption
16%
Surface-subsurface
16%
Fusion Reactor
16%
Sample Temperature
16%
Electrical Bias
16%
Hydrogen Plasma
16%
Exposure Conditions
16%
Dissolution Behavior
16%
Intimate Knowledge
16%
Deuterium Plasma
16%
Lithium Exposure
16%
Dissolution Enhancement
16%
Tritium Plasmas
16%
Bulk Chemistry
16%
Recycling Effort
16%
Liquidus Curve
16%
Electrical Length
16%
Engineering
Tritium
100%
Hydrogen Absorption
100%
Nuclear Reactor
33%
Programmed Temperature
33%
Subsurface
33%
Sample Temperature
33%
Exposure Condition
33%
Superficial Surface
33%
End Process
33%
Surface Layer
33%
Hydrogen Isotope
33%
Physics
Desorption
100%
Liquid Lithium
100%
Tritium
75%
Deuterium
25%
Surface Layers
25%
Hydrogen Plasma
25%
Blood Plasma
25%
Nuclear Reactor
25%
Hydrogen Isotope
25%
Chemistry
Hydrogen
100%
Lithium
100%
Desorption
44%
Tritium
33%
Lithium Hydride
22%
Chemistry
11%
Hydrogen Isotope
11%
melt
11%
Deuterium
11%
Chemical Engineering
Desorption
100%
Tritium
100%
Temperature Programmed Desorption
33%
Deuterium
33%
Material Science
Lithium
100%
Desorption
36%
Tritium
27%
Surface (Surface Science)
27%
Tungsten
18%
Hydride
18%
Electrical Resistivity
9%
Deuterium
9%