CO2-Philic Thin Film Composite Membranes: Synthesis and Characterization of PAN-r-PEGMA Copolymer

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Madhavan Karunakaran
  • Mahendra Kumar
  • Rahul Shevate
  • Faheem Hassan Akhtar
  • Klaus-Viktor Peinemann

External Research Organisations

  • King Abdullah University of Science and Technology (KAUST)
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Details

Original languageEnglish
Article number219
JournalPolymers
Volume9
Issue number7
Publication statusPublished - 6 Jul 2017
Externally publishedYes

Abstract

In this work, we report the successful fabrication of CO2-philic polymer composite membranes using a polyacrylonitrile-r-poly(ethylene glycol) methyl ether methacrylate (PAN-r-PEGMA) copolymer. The series of PAN-r-PEGMA copolymers with various amounts of PEG content was synthesized by free radical polymerization in presence of AIBN initiator and the obtained copolymers were used for the fabrication of composite membranes. The synthesized copolymers show high molecular weights in the range of 44-56 kDa. We were able to fabricate thin film composite (TFC) membranes by dip coating procedure using PAN-r-PEGMA copolymers and the porous PAN support membrane. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) were applied to analyze the surface morphology of the composite membranes. The microscopy analysis reveals the formation of the defect free skin selective layer of PAN-r-PEGMA copolymer over the porous PAN support membrane. Selective layer thickness of the composite membranes was in the range of 1.32-1.42 mu m. The resulting composite membrane has CO2 a permeance of 1.37 x 10(-1) m(3)/m(2).h.bar and an ideal CO2/N-2, selectivity of 65. The TFC membranes showed increasing ideal gas pair selectivities in the order CO2/N-2 > CO2/CH4 > CO2/H-2. In addition, the fabricated composite membranes were tested for long-term single gas permeation measurement and these membranes have remarkable stability, proving that they are good candidates for CO2 separation.

Keywords

    Composite membranes, Copolymer, Gas separation, Polyacrylonitrile, Polyethylene glycol

ASJC Scopus subject areas

Cite this

CO2-Philic Thin Film Composite Membranes: Synthesis and Characterization of PAN-r-PEGMA Copolymer. / Karunakaran, Madhavan; Kumar, Mahendra; Shevate, Rahul et al.
In: Polymers, Vol. 9, No. 7, 219, 06.07.2017.

Research output: Contribution to journalArticleResearchpeer review

Karunakaran, M, Kumar, M, Shevate, R, Akhtar, FH & Peinemann, K-V 2017, 'CO2-Philic Thin Film Composite Membranes: Synthesis and Characterization of PAN-r-PEGMA Copolymer', Polymers, vol. 9, no. 7, 219. https://doi.org/10.3390/polym9070219
Karunakaran, M., Kumar, M., Shevate, R., Akhtar, F. H., & Peinemann, K.-V. (2017). CO2-Philic Thin Film Composite Membranes: Synthesis and Characterization of PAN-r-PEGMA Copolymer. Polymers, 9(7), Article 219. https://doi.org/10.3390/polym9070219
Karunakaran M, Kumar M, Shevate R, Akhtar FH, Peinemann KV. CO2-Philic Thin Film Composite Membranes: Synthesis and Characterization of PAN-r-PEGMA Copolymer. Polymers. 2017 Jul 6;9(7):219. doi: 10.3390/polym9070219
Karunakaran, Madhavan ; Kumar, Mahendra ; Shevate, Rahul et al. / CO2-Philic Thin Film Composite Membranes : Synthesis and Characterization of PAN-r-PEGMA Copolymer. In: Polymers. 2017 ; Vol. 9, No. 7.
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abstract = "In this work, we report the successful fabrication of CO2-philic polymer composite membranes using a polyacrylonitrile-r-poly(ethylene glycol) methyl ether methacrylate (PAN-r-PEGMA) copolymer. The series of PAN-r-PEGMA copolymers with various amounts of PEG content was synthesized by free radical polymerization in presence of AIBN initiator and the obtained copolymers were used for the fabrication of composite membranes. The synthesized copolymers show high molecular weights in the range of 44-56 kDa. We were able to fabricate thin film composite (TFC) membranes by dip coating procedure using PAN-r-PEGMA copolymers and the porous PAN support membrane. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) were applied to analyze the surface morphology of the composite membranes. The microscopy analysis reveals the formation of the defect free skin selective layer of PAN-r-PEGMA copolymer over the porous PAN support membrane. Selective layer thickness of the composite membranes was in the range of 1.32-1.42 mu m. The resulting composite membrane has CO2 a permeance of 1.37 x 10(-1) m(3)/m(2).h.bar and an ideal CO2/N-2, selectivity of 65. The TFC membranes showed increasing ideal gas pair selectivities in the order CO2/N-2 > CO2/CH4 > CO2/H-2. In addition, the fabricated composite membranes were tested for long-term single gas permeation measurement and these membranes have remarkable stability, proving that they are good candidates for CO2 separation.",
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T2 - Synthesis and Characterization of PAN-r-PEGMA Copolymer

AU - Karunakaran, Madhavan

AU - Kumar, Mahendra

AU - Shevate, Rahul

AU - Akhtar, Faheem Hassan

AU - Peinemann, Klaus-Viktor

N1 - Publisher Copyright: © 2017 by the authors.

PY - 2017/7/6

Y1 - 2017/7/6

N2 - In this work, we report the successful fabrication of CO2-philic polymer composite membranes using a polyacrylonitrile-r-poly(ethylene glycol) methyl ether methacrylate (PAN-r-PEGMA) copolymer. The series of PAN-r-PEGMA copolymers with various amounts of PEG content was synthesized by free radical polymerization in presence of AIBN initiator and the obtained copolymers were used for the fabrication of composite membranes. The synthesized copolymers show high molecular weights in the range of 44-56 kDa. We were able to fabricate thin film composite (TFC) membranes by dip coating procedure using PAN-r-PEGMA copolymers and the porous PAN support membrane. Scanning electron microscopy (SEM) and atomic force microscopy (AFM) were applied to analyze the surface morphology of the composite membranes. The microscopy analysis reveals the formation of the defect free skin selective layer of PAN-r-PEGMA copolymer over the porous PAN support membrane. Selective layer thickness of the composite membranes was in the range of 1.32-1.42 mu m. The resulting composite membrane has CO2 a permeance of 1.37 x 10(-1) m(3)/m(2).h.bar and an ideal CO2/N-2, selectivity of 65. The TFC membranes showed increasing ideal gas pair selectivities in the order CO2/N-2 > CO2/CH4 > CO2/H-2. In addition, the fabricated composite membranes were tested for long-term single gas permeation measurement and these membranes have remarkable stability, proving that they are good candidates for CO2 separation.

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