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Magnesium-based materials supported on carbon for hydrogen storage
Y.S. Au
Sub Inorganic Chemistry and Catalysis
Research output
:
Thesis
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Doctoral thesis 1 (Research UU / Graduation UU)
Overview
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Dive into the research topics of 'Magnesium-based materials supported on carbon for hydrogen storage'. Together they form a unique fingerprint.
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Keyphrases
Renewable Energy
100%
Particle Size
100%
Combustion
100%
Hydrogen Storage
100%
Carbon Support
100%
Solid-state Hydrogen Storage
100%
Kinetic Properties
100%
Solid Materials
100%
Mg-based Materials
100%
Magnesium-based Materials
100%
Hydrogen Sorption
100%
Global Warming
50%
Structural Properties
50%
Fossil Fuels
50%
Nanoparticles
50%
Fuel Cell
50%
Material Properties
50%
Rising CO2
50%
Room Temperature
50%
Nanomaterials
50%
Storage Methods
50%
Magnesium
50%
Hydrogen Desorption
50%
Mobile Application
50%
Particle Interactions
50%
Strong Bond
50%
Nanometer Range
50%
Particle Growth
50%
Hydrogen Storage Materials
50%
Synthetic Strategies
50%
Solar Energy
50%
Thermodynamic Properties
50%
Sustainable Future
50%
Equilibrium Temperature
50%
Wind Energy
50%
Hydrogen Absorption
50%
Hydrogen Storage Properties
50%
Charging Process
50%
Kinetic Characteristics
50%
Off-grid Problem
50%
Gravimetric Density
50%
CO2 Content
50%
Hydrogen Storage Performance
50%
Electrolysis
50%
Equilibrium Characteristics
50%
Cycling Stability
50%
Operation Pressure
50%
Operation Conditions
50%
Particle Size Composition
50%
Storage Materials
50%
Discharge Process
50%
New Synthesis
50%
Small Particle Size
50%
Operation Temperature
50%
Compressed Gas
50%
Synthesis Methods
50%
Porous Carbon Support
50%
Material Science
Magnesium
100%
Solid-State Hydrogen Storage
66%
Porous Carbon
33%
Density
33%
Materials Property
33%
Desorption
33%
Nanostructured Material
33%
Structural Property
33%
Particle Growth
33%
Hydrogen Storage Material
33%
Fossil Fuel
33%
Carbon Dioxide
33%
Nanoparticle
33%
Engineering
Hydrogen Storage
100%
Solid Material
40%
Renewable Energy Source
40%
Nanoparticles
20%
Wind Power
20%
Nanomaterial
20%
Fossil Fuel
20%
Size of Particle
20%
Sustainable Future
20%
Equilibrium Temperature
20%
Nanometer Range
20%
Hydrogen Absorption
20%
Global Warming
20%
Room Temperature
20%
Structural Property
20%
Cycling Stability
20%
Porosity
20%
Compressed Gas
20%
Fuel Cell
20%
Chemical Engineering
Chemical Kinetics Characteristics
100%
Desorption
50%
Carbon Dioxide
50%
Regain
50%
Nanoparticle
50%