Keyphrases
Polyimide of Intrinsic Microporosity
49%
Carbon Molecular Sieve Membrane
47%
Gas Separation Performance
40%
Composite Carbon Material
35%
Thin Film Composite
35%
Thermal Treatment
29%
6FDA
29%
Molecular Separation
26%
Membrane-based
23%
Separation Performance
20%
Cellulose Support
17%
Solvent Resistant Nanofiltration Membranes
17%
Cellulose Composites
17%
NaCl Rejection
17%
Salt Rejection
17%
Nanohybrid
17%
Cellulose Thin Film
17%
Thin-film Composite Nanofiltration Membrane
17%
Equilibrium Gas
17%
Alginate Membrane
17%
Green Organic Solvent
17%
Charge Selective
17%
Chemical Transformation
17%
Cyclohexane
17%
Solid State
17%
Ethanol
17%
Complex Chemicals
17%
Morphological Transformation
17%
In Situ
17%
Hydroxyl
17%
6FDA-based Polyimide
17%
Physical Aging
17%
Carbon Molecular Sieve
14%
Vapor Phase Infiltration
13%
Thermal Crosslinking
11%
Polar Functional Groups
11%
CMS Membrane
11%
Pervaporation
11%
Polyimide
11%
Thermally Rearranged
11%
Isothermal Heat Treatment
11%
Material Science
Thin Films
100%
Composite Membrane
97%
Organic Solvents
53%
Carbon Molecular Sieve
53%
Polyimide
44%
Nanofiltration Membrane
35%
Nanospheres
35%
Copolymer
35%
Polyester
26%
Water Vapor
20%
Polymerization
20%
Film
20%
Polyethyleneimine
17%
Amorphous Material
17%
Hybrid Material
17%
Catalysis
17%
Nanohybrid
17%
Polyamide
17%
Arsenic
17%
Quercetin
11%
Atomic Force Microscopy
10%
Polyphenol
10%
Ionic Liquid
10%
X-Ray Photoelectron Spectroscopy
10%
Engineering
Carbon Molecular Sieve Membrane
65%
Separation Performance
63%
Thin-Film Composite
59%
Microporosity
49%
Heat Treatment
35%
Separation Gas
29%
CH4
28%
Regenerated Cellulose
26%
Graphics Processing Unit
22%
Defects
20%
Carbon Molecular Sieve
20%
Polymer of Intrinsic Microporosity
17%
Pervaporation
17%
Transmissions
17%
Polyamide
17%
Dehumidification
17%
Membrane Flux
17%
Thin Films
17%
Cellulose Membrane
17%
Arsenic
17%
Nanospheres
17%
Nanohybrid
17%
Functional Group
16%
Aromatics
13%
Isothermal
11%
Layer Thickness
11%
Membrane Performance
11%