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Carbon Matrix Confined Sodium Alanate for Reversible Hydrogen Storage
J. Gao
Sub Inorganic Chemistry and Catalysis
Research output
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Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
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Keyphrases
Carbon Matrix
100%
NaAlH4
100%
Sodium Alanate
100%
Reversible Hydrogen Storage
100%
Desorption
60%
Non-porous
26%
Porous Carbon
20%
Porous Graphite
20%
Nanoconfined
13%
Dehydrogenation
13%
H2 Pressure
13%
H2 Release
13%
Hydrides
6%
Thermodynamics
6%
Particle Size
6%
Equilibrium Pressure
6%
Complex Metal Hydrides
6%
Impurities
6%
Porous Carbon Matrix
6%
Melt Infiltration
6%
Mobile Application
6%
Carbon Support
6%
Solid-state Hydrogen Storage
6%
Severe Disease
6%
Complex Light
6%
Pore Volume
6%
Side Reactions
6%
Thermodynamic Stability
6%
Nanoconfinement
6%
Light Metal Hydrides
6%
Reabsorption
6%
Gravimetric Energy Density
6%
O-containing Groups
6%
Desorption Rate
6%
Moderate Temperature
6%
Sluggish Kinetics
6%
Release Temperature
6%
Moderate Pressure
6%
Volumetric Energy Density
6%
Stationary Application
6%
Metal Hydride
6%
Future Energy Scenarios
6%
Engineering
Hydrogen Storage
100%
Alanates
100%
Dehydrogenation
66%
Future Energy
33%
Thermodynamic Stability
33%
Melt Infiltration
33%
Energy Scenario
33%
Melting Point
33%
Equilibrium Pressure
33%
Reabsorption
33%
Energy Density
33%
Active Na
33%
Material Science
Desorption
100%
Sodium
100%
Porous Carbon
40%
Metal Hydride
30%
Dehydrogenation
20%
Pore Volume
10%
Hydride
10%
Light Metal
10%
Energy Density
10%
Chemical Engineering
Desorption
100%
Dehydrogenation
20%
Metal Complex
10%