Enhanced performance of mixed matrix membrane by incorporating a highly compatible covalent organic framework into poly(vinylamine) for hydrogen purification

Enhanced performance of mixed matrix membrane by incorporating a highly compatible covalent organic framework into poly(vinylamine) for hydrogen purification

In this work, a highly compatible covalent organic framework (COF) was incorporated into poly(vinylamine) (PVAm) to enhance membrane performance. An imine-based COF with a 2-dimensional network was synthesized via a facile nucleophilic reaction. The PVAm/COF mixed matrix membrane (MMM) was prepared...

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Veröffentlicht in:International journal of hydrogen energy 2016-06, Vol.41 (21), p.9167-9174
Hauptverfasser: Cao, Xiaochang, Qiao, Zhihua, Wang, Zhi, Zhao, Song, Li, Panyuan, Wang, Jixiao, Wang, Shichang
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Sprache:eng
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Carbon dioxide
CO2/H2 separation
Compatibility
Covalence
Covalent organic frameworks
Hydrogen purification
Membranes
Mixed matrix membranes
Networks
Performance enhancement
Porosity
Reluctance
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container_end_page 9174
container_issue 21
container_start_page 9167
container_title International journal of hydrogen energy
container_volume 41
creator Cao, Xiaochang
Qiao, Zhihua
Wang, Zhi
Zhao, Song
Li, Panyuan
Wang, Jixiao
Wang, Shichang
description In this work, a highly compatible covalent organic framework (COF) was incorporated into poly(vinylamine) (PVAm) to enhance membrane performance. An imine-based COF with a 2-dimensional network was synthesized via a facile nucleophilic reaction. The PVAm/COF mixed matrix membrane (MMM) was prepared by casting PVAm-COF dispersion on polysulfone (PSf) ultrafiltration membrane, and the resulting membrane was applied for CO2/H2 separation. Suitable pores are incorporated into the MMM to enhance the diffusivity of CO2, and simultaneously amino groups of PVAm are adhered to the pore walls due to the hydrogen bonds between the polymer and the filler, thus enhancing CO2 preferential adsorption through reversible reaction. A notably improved gas separation performance of PVAm/COF membrane could be attained compared to PVAm membrane. With 10 wt% COF incorporated, the as-prepared MMM shows a CO2/H2 selectivity of 15 and a CO2 permeance of 396 GPU at 0.15 MPa. These results suggest that COFs with various structures have potential to possess good compatibility with polymers, thereby enabling fabrication of COF-based MMMs with superior performance. [Display omitted] •COF shows good compatibility with PVAm.•The PVAm/COF membrane possesses the character of CO2 preferential adsorption.•The PVAm/COF membrane shows good CO2/H2 performance.
doi_str_mv 10.1016/j.ijhydene.2016.01.137
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These results suggest that COFs with various structures have potential to possess good compatibility with polymers, thereby enabling fabrication of COF-based MMMs with superior performance. 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These results suggest that COFs with various structures have potential to possess good compatibility with polymers, thereby enabling fabrication of COF-based MMMs with superior performance. [Display omitted] •COF shows good compatibility with PVAm.•The PVAm/COF membrane possesses the character of CO2 preferential adsorption.•The PVAm/COF membrane shows good CO2/H2 performance.</abstract><pub>Elsevier Ltd</pub><doi>10.1016/j.ijhydene.2016.01.137</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0002-8465-687X</orcidid></addata></record>
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subjects Carbon dioxide
CO2/H2 separation
Compatibility
Covalence
Covalent organic frameworks
Hydrogen purification
Membranes
Mixed matrix membranes
Networks
Performance enhancement
Porosity
Reluctance
title Enhanced performance of mixed matrix membrane by incorporating a highly compatible covalent organic framework into poly(vinylamine) for hydrogen purification
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