Tailor-made Polymeric Membranes based on Segmented Block Copolymers for CO2 Separation

This paper reports the design of a tailor made polymeric membrane by using poly(ethylene oxide)–poly(butylene terephthalate) (PEO‐PBT) multi‐block copolymers. Their properties are controlled by the fraction of the PEO phase and its molecular weight. To explain the effect of structural changes in cop...

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Published in	Advanced functional materials Vol. 18; no. 18; pp. 2815 - 2823
Main Authors	Car, Anja, Stropnik, Chrtomir, Yave, Wilfredo, Peinemann, Klaus-Viktor
Format	Journal Article
Language	English
Published	Weinheim WILEY-VCH Verlag 23.09.2008 WILEY‐VCH Verlag
Subjects	block copolymers gas separation membranes: polymer permeability
Online Access	Get full text
ISSN	1616-301X 1616-3028
DOI	10.1002/adfm.200800436

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Abstract	This paper reports the design of a tailor made polymeric membrane by using poly(ethylene oxide)–poly(butylene terephthalate) (PEO‐PBT) multi‐block copolymers. Their properties are controlled by the fraction of the PEO phase and its molecular weight. To explain the effect of structural changes in copolymer membranes, transport properties of four gases (CO2, H2, N2, and CH4) are discussed. After characterization, the two best copolymers are selected in order to prepare tailor made blends by adding poly(ethylene glycol) (PEG). The best selected copolymer that contained 55 wt. % of 4000 g mol−1 PEO produced a blend with high CO2 permeability (∼190 barrer), which is twice the permeability of the pure copolymer. At the same time, an enhancement of CO2/H2 selectivity is observed (∼13). These results suggest that the morphology of PEO‐PBT can be well controlled by the addition of low‐molecular‐weight PEG, and consequently the gas transport properties can be tuned. Different PEO‐PBT multiblock copolymers are used to prepare carbon dioxide selective membranes. The carbon dioxide permeability runs through a maximum when plotted versus the molecular weight of the PEO block.
AbstractList	This paper reports the design of a tailor made polymeric membrane by using poly(ethylene oxide)–poly(butylene terephthalate) (PEO‐PBT) multi‐block copolymers. Their properties are controlled by the fraction of the PEO phase and its molecular weight. To explain the effect of structural changes in copolymer membranes, transport properties of four gases (CO2, H2, N2, and CH4) are discussed. After characterization, the two best copolymers are selected in order to prepare tailor made blends by adding poly(ethylene glycol) (PEG). The best selected copolymer that contained 55 wt. % of 4000 g mol−1 PEO produced a blend with high CO2 permeability (∼190 barrer), which is twice the permeability of the pure copolymer. At the same time, an enhancement of CO2/H2 selectivity is observed (∼13). These results suggest that the morphology of PEO‐PBT can be well controlled by the addition of low‐molecular‐weight PEG, and consequently the gas transport properties can be tuned. Different PEO‐PBT multiblock copolymers are used to prepare carbon dioxide selective membranes. The carbon dioxide permeability runs through a maximum when plotted versus the molecular weight of the PEO block. This paper reports the design of a tailor made polymeric membrane by using poly(ethylene oxide)-poly(butylene terephthalate) (PEO-PBT) multi-block copolymers. Their properties are controlled by the fraction of the PEO phase and its molecular weight. To explain the effect of structural changes in copolymer membranes, transport properties of four gases (CO2, H2, N2, and CH4) are discussed. After characterization, the two best copolymers are selected in order to prepare tailor made blends by adding poly(ethylene glycol) (PEG). The best selected copolymer that contained 55wt. % of 4000g mol-1 PEO produced a blend with high CO2 permeability (190 barrer), which is twice the permeability of the pure copolymer. At the same time, an enhancement of CO2/H2 selectivity is observed (13). These results suggest that the morphology of PEO-PBT can be well controlled by the addition of low-molecular-weight PEG, and consequently the gas transport properties can be tuned.
Author	Stropnik, Chrtomir Yave, Wilfredo Car, Anja Peinemann, Klaus-Viktor
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Snippet	This paper reports the design of a tailor made polymeric membrane by using poly(ethylene oxide)–poly(butylene terephthalate) (PEO‐PBT) multi‐block copolymers.... This paper reports the design of a tailor made polymeric membrane by using poly(ethylene oxide)-poly(butylene terephthalate) (PEO-PBT) multi-block copolymers....
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SubjectTerms	block copolymers gas separation membranes: polymer permeability
Title	Tailor-made Polymeric Membranes based on Segmented Block Copolymers for CO2 Separation
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