In situ study on kinetic behavior during asymmetric membrane formation via phase inversion process using Raman spectroscopy

Corresponding Author

H. J. Kim

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada===Search for more papers by this author

A. E. Fouda,

A. E. Fouda

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada

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K. Jonasson,

K. Jonasson

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada

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H. J. Kim,

Corresponding Author

H. J. Kim

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada===Search for more papers by this author

A. E. Fouda,

A. E. Fouda

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada

Search for more papers by this author

K. Jonasson,

K. Jonasson

Institute for Chemical Process and Environmental Technology, National Research Council Canada, Ottawa, Ontario K1A 0R6, Canada

Search for more papers by this author

First published: 19 November 1999

https://doi.org/10.1002/(SICI)1097-4628(20000103)75:1<135::AID-APP15>3.0.CO;2-9

Citations: 42

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Abstract

Asymmetric membrane formation has been studied by using an in situ analysis developed with a Micro Raman spectroscopy, which emphasizes kinetic aspects of the phase inversion process. Changes in composition with time was successfully measured on the gelation bath-side as well as inside the precipitated phase for the polymer/solvent/nonsolvent system of polysulfone/1-methyl-2-pyrrolidinone/ethanol. The results shows that resulting relative mass transfer rates of solvent and nonsolvent during the phase inversion process strongly influence the final membrane morphologies. In addition, ternary compositions at which phase separation initiates were explored by analyzing the coagulation front. © 2000 John Wiley & Sons, Inc. J Appl Polym Sci 75: 135–141, 2000

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Volume75, Issue1

3 January 2000

Pages 135-141

In situ study on kinetic behavior during asymmetric membrane formation via phase inversion process using Raman spectroscopy

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In situ study on kinetic behavior during asymmetric membrane formation via phase inversion process using Raman spectroscopy

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