INIS
electrochemistry
100%
hydrogen
100%
synthesis
100%
ammonia
100%
reduction
50%
hydrogenation
50%
nitrogen
50%
surfaces
33%
electrolytes
33%
nickel
33%
electrodes
33%
emission
16%
membranes
16%
production
16%
labelling
16%
carbon
16%
carriers
16%
nitrides
16%
polycrystals
16%
green energy
16%
mars planet
16%
fertilizer industry
16%
water
16%
vacancies
16%
isotopes
16%
Chemistry
Ammonia Synthesis
100%
Hydrogen
100%
Ammonia
50%
Nitrogen
50%
Hydrogenation
50%
Reduction
50%
Surface
33%
Electrolyte
33%
Dinitrogen
33%
Energy
16%
Nitride
16%
Industry
16%
Carbon Dioxide Emission
16%
Fertilizer
16%
Reaction Mechanism
16%
Water Type
16%
Material Science
Hydrogenation
100%
Nickel
66%
Electrolyte
66%
Electrode
66%
Surface
66%
Nitride Compound
33%
Water
33%
Fertilizer
33%
Membrane
33%
Chemical Engineering
Ammonia Synthesis
100%
Hydrogen
100%
Hydrogenation
50%
Ammonia
50%
Nitrogen
50%
Nickel
33%
Nitride
16%
Water
16%
Isotope
16%
Carbon
16%
Keyphrases
Dinitrogen Activation
66%
Permeable Electrode
33%
Nickel Membrane
33%
Mars-van Krevelen Mechanism
33%
Polycrystalline Nickel
33%
Electrochemical Nitrogen Reduction
33%
Electrolyte Reduction
33%
15N2
33%