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Physical aging, high temperature and water vapor permeation studies of UV-rearranged PIM-1 membranes for advanced hydrogen purification and production
Fu Yun Li, Tai Shung Chung
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Corresponding author for this work
Research output
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Article
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peer-review
28
Scopus citations
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Dive into the research topics of 'Physical aging, high temperature and water vapor permeation studies of UV-rearranged PIM-1 membranes for advanced hydrogen purification and production'. Together they form a unique fingerprint.
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Keyphrases
High Temperature
100%
Hydrogen Production
100%
High Water
100%
Physical Aging
100%
Permeation Studies
100%
Hydrogen Purification
100%
Water Vapor Permeation
100%
PIM-1 Membranes
100%
Gas Separation Performance
42%
Separation Performance
28%
Gas Test
28%
Industrial Test
14%
Mixed Gas
14%
Plasticization
14%
Pure Gas
14%
CO2 Separation
14%
Testing Conditions
14%
Positron Lifetime
14%
Fed Condition
14%
Lifetime Analysis
14%
Water Vapor Effect
14%
Enhanced Separation
14%
Aging Studies
14%
Industrial Hydrogen
14%
Engineering
Separation Performance
100%
Testing Condition
20%
Plasticisation
20%
Material Science
Water Vapor
100%