INIS
carbon dioxide
100%
porous materials
100%
capture
100%
investigations
100%
organic polymers
100%
amides
100%
esters
100%
high pressure
36%
performance
27%
adsorption
27%
methane
18%
solids
18%
low pressure
18%
volume
18%
capacity
18%
exploration
9%
gases
9%
synthesis
9%
organometallic compounds
9%
storage
9%
amines
9%
spectroscopy
9%
instability
9%
size
9%
surface area
9%
solvents
9%
suspensions
9%
organic compounds
9%
temperature range 0273-0400 k
9%
mass transfer
9%
physical properties
9%
balances
9%
equipment
9%
sorption
9%
nuclear magnetic resonance
9%
fourier transform spectrometers
9%
gas analysis
9%
heat of adsorption
9%
Chemistry
Porosity
100%
Carbon Dioxide
100%
Amide
100%
Ester
100%
Pressure
100%
Reaction Temperature
100%
Polymer
100%
Carbon Dioxide
63%
Methane
18%
Analytical Method
18%
Volume
18%
Metal Organic Framework
9%
Surface Area
9%
Sorption
9%
Amine
9%
Pore Size
9%
Spectroscopy Technique
9%
Knight Shift
9%
Fourier Transform Infrared Spectroscopy
9%
Elemental Analysis
9%
Mass Transfer
9%
Heat of Adsorption
9%
Gas
9%
Sorbent Material
9%
Rate of Adsorption
9%
Procedure
9%
Synthesis (Chemical)
9%
Storage
9%
Solid
9%
Engineering Process
9%
Solvent
9%
Physical Property
9%
Ambient Reaction Temperature
9%
Group
9%
Suspension
9%
Solid-State Nuclear Magnetic Resonance
9%
Organic Compound
9%
Gas Analysis
9%
Material Science
Organic Polymer
100%
Material
100%
Temperature
100%
Bar (Metal)
27%
Adsorption
27%
Pore Volume
18%
Gas
18%
Metal-Organic Framework
9%
Surface Area
9%
Pore Size
9%
Elemental Analysis
9%
Sorbent
9%
Fourier Transform Infrared Spectroscopy
9%
Nuclear Magnetic Resonance Spectroscopy
9%
Covalent Organic Framework
9%
Solvent
9%
Solid
9%
Physical Property
9%