Fabrication of high-performance facilitated transport membranes for CO2 separationElectronic supplementary information (ESI) available: Details of experimental procedures, characterization techniques and characterization data, performance comparison of membranes, stability of the PEIE-HT membrane in simulated flue gas. See DOI: 10.1039/c3sc53334d

Fabrication of high-performance facilitated transport membranes for CO2 separationElectronic supplementary information (ESI) available: Details of experimental procedures, characterization techniques and characterization data, performance comparison of membranes, stability of the PEIE-HT membrane in simulated flue gas. See DOI: 10.1039/c3sc53334d

At present, liquid membranes, ion-exchange membranes and fixed carrier membranes are the three popular facilitated transport membranes for CO 2 separation. They possess their own advantages, as well as their respective deficiencies. In view of the characters of these three types of facilitated trans...

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Hauptverfasser: Liao, Jiayou, Wang, Zhi, Gao, Chengyun, Li, Shichun, Qiao, Zhihua, Wang, Ming, Zhao, Song, Xie, Xianmei, Wang, Jixiao, Wang, Shichang
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creator Liao, Jiayou
Wang, Zhi
Gao, Chengyun
Li, Shichun
Qiao, Zhihua
Wang, Ming
Zhao, Song
Xie, Xianmei
Wang, Jixiao
Wang, Shichang
description At present, liquid membranes, ion-exchange membranes and fixed carrier membranes are the three popular facilitated transport membranes for CO 2 separation. They possess their own advantages, as well as their respective deficiencies. In view of the characters of these three types of facilitated transport membrane, we report a method to combine their advantages and overcome their deficiencies. A new membrane was fabricated by establishing high-speed facilitated transport channels in the fixed carrier membrane. This membrane displays excellent CO 2 separation performance and good stability. The results suggest that this is an effective way to fabricate high performance and high stability CO 2 separation membranes. Furthermore, establishing high-speed facilitated transport channels in fixed carrier membranes will be a universal route to improve the performance of gas separation membranes. At present, liquid membranes, ion-exchange membranes and fixed carrier membranes are the three popular facilitated transport membranes for CO 2 separation. We report a method to combine their advantages and overcome their deficiencies.
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See DOI: 10.1039/c3sc53334d</title><source>PubMed Central Open Access</source><source>Royal Society Of Chemistry Journals 2008-</source><source>PubMed Central</source><creator>Liao, Jiayou ; Wang, Zhi ; Gao, Chengyun ; Li, Shichun ; Qiao, Zhihua ; Wang, Ming ; Zhao, Song ; Xie, Xianmei ; Wang, Jixiao ; Wang, Shichang</creator><creatorcontrib>Liao, Jiayou ; Wang, Zhi ; Gao, Chengyun ; Li, Shichun ; Qiao, Zhihua ; Wang, Ming ; Zhao, Song ; Xie, Xianmei ; Wang, Jixiao ; Wang, Shichang</creatorcontrib><description>At present, liquid membranes, ion-exchange membranes and fixed carrier membranes are the three popular facilitated transport membranes for CO 2 separation. They possess their own advantages, as well as their respective deficiencies. In view of the characters of these three types of facilitated transport membrane, we report a method to combine their advantages and overcome their deficiencies. A new membrane was fabricated by establishing high-speed facilitated transport channels in the fixed carrier membrane. This membrane displays excellent CO 2 separation performance and good stability. The results suggest that this is an effective way to fabricate high performance and high stability CO 2 separation membranes. Furthermore, establishing high-speed facilitated transport channels in fixed carrier membranes will be a universal route to improve the performance of gas separation membranes. At present, liquid membranes, ion-exchange membranes and fixed carrier membranes are the three popular facilitated transport membranes for CO 2 separation. 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title Fabrication of high-performance facilitated transport membranes for CO2 separationElectronic supplementary information (ESI) available: Details of experimental procedures, characterization techniques and characterization data, performance comparison of membranes, stability of the PEIE-HT membrane in simulated flue gas. See DOI: 10.1039/c3sc53334d
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