Keyphrases
Steam
100%
CO2 Separation
100%
CO2 Capacity
100%
H2 Purification
100%
Porous Organic Polymers
100%
Post-combustion CO2 Capture
100%
High CO2
100%
Bakelite
100%
Aldehydes
50%
Sorbent
50%
Metal-organic Frameworks (MOFs)
50%
Highly Crystalline
50%
Multiple Benefits
50%
Hydrogen Production
50%
Working Capacity
50%
Surface Hydrophobicity
50%
CO2 Sources
50%
High Thermal Stability
50%
Electricity Production
50%
Record-breaking
50%
High Temperature Condition
50%
Formation Reaction
50%
Surface Polarity
50%
Microporous Structure
50%
Harsh Conditions
50%
Pressure Swing
50%
C-C Bond Formation
50%
Capture CO2
50%
Capture Process
50%
Catalyst-free
50%
Pre-combustion Capture
50%
Molecular Sieving Effect
50%
Amorphous Polymer
50%
Solid Sorbents
50%
Reformation
50%
CO2 Capture
50%
High-pressure Gas
50%
Global CO2 Concentration
50%
Fast Diffusion Kinetics
50%
Covalent Linking
50%
High Chemical Stability
50%
Temperature Swing Adsorption
50%
Gas Mixture
50%
High-pressure Conditions
50%
Fossil Hydrogen
50%
Fossil Fuel Production
50%
Humid Conditions
50%
Pressure-temperature
50%
Clean Burn
50%
Surface Basicity
50%
Engineering
Carbon Dioxide Capture
100%
Adsorption
33%
Fossil Fuel
33%
Hydrogen Production
33%
Promising Candidate
33%
Harsh Condition
33%
Bond Formation
33%
Covalent
33%
Gas Mixture
33%
Pressure Gas
33%
Pressure Bar
33%
Pre-Combustion Capture
33%
Molecular Sieving
33%
Amorphous Polymer
33%
Diffusion Kinetics
33%
Electricity Production
33%
Chemical Engineering
Organic Polymer
100%
Adsorption
50%
Hydrogen Production
50%
Phenol
50%
Material Science
Carbon Dioxide
100%
Sorbent
20%
Organic Polymer
20%
Metal-Organic Framework
10%
Crystalline Material
10%
Amorphous Material
10%
Fossil Fuel
10%
Hydrophobicity
10%
Adsorption
10%
Gas Mixture
10%