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Structures and gas separation properties of asymmetric polysulfone membranes made by dry, wet, and dry/wet phase inversion
Ingo Pinnau
, William J. Koros
*
*
Corresponding author for this work
Research output
:
Contribution to journal
›
Article
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peer-review
217
Scopus citations
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Dive into the research topics of 'Structures and gas separation properties of asymmetric polysulfone membranes made by dry, wet, and dry/wet phase inversion'. Together they form a unique fingerprint.
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Keyphrases
Polysulfone Membrane
100%
Gas Separation Property
100%
Wetting-drying
100%
Structure Separation
100%
Wet Phase Inversion
100%
Skin Layer
71%
Phase Inversion Membranes
42%
Ultrathin
28%
Polysulfone
28%
N2 Selectivity
28%
Convective Evaporation
28%
Gas Separation Membrane
14%
Substructure
14%
Layer Thickness
14%
Transition Layer
14%
Methanol
14%
Phase Inversion Method
14%
High Heat Flux
14%
Gas Transport
14%
Gas Separation Performance
14%
Low Selectivity
14%
Gas Flux
14%
Methylene Chloride
14%
Pore Flow
14%
Casting System
14%
Photomicrograph
14%
Engineering
Separation Gas
100%
Phase-Inversion
100%
Polysulfone
100%
Convective
28%
Membranes Separation
14%
Membrane Selectivity
14%
Layer Thickness
14%
Separation Performance
14%
Defect Layer
14%
Defects
14%
Methylene Chloride
14%