INIS
sorption
100%
energy storage
100%
carbon dioxide
100%
methanation
100%
catalysts
100%
nickel
41%
zeolites
33%
comparative evaluations
33%
dispersions
33%
citrates
25%
metals
25%
stability
25%
acetates
16%
adsorption
16%
acidity
16%
loading
16%
nitrates
16%
cerium oxides
8%
ruthenium
8%
kinetics
8%
nickel nitrates
8%
nickel oxides
8%
shells
8%
eggs
8%
mapping
8%
applications
8%
testing
8%
reactors
8%
porous materials
8%
reaction kinetics
8%
fixed beds
8%
impregnation
8%
recommendations
8%
desorption
8%
synthesis
8%
calcination
8%
performance
8%
precursor
8%
evaporation
8%
size
8%
Chemical Engineering
Nickel
100%
Sorption
100%
Zeolite
66%
Adsorption
33%
Ruthenium
16%
Cerium Compound
16%
Calcination
16%
Desorption
16%
Temperature
16%
Material Science
Catalyst
100%
Carbon Dioxide
100%
Nickel
50%
Zeolite
33%
Metal
25%
Adsorption
16%
Calcination
8%
Temperature
8%
Cerium Oxide
8%
Al2O3
8%
Desorption
8%
Energy-Dispersive X-Ray Spectroscopy
8%
Ruthenium
8%
Engineering
CO2methanation
25%
Good Dispersion
8%