Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar

Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar

Poly(ionic) liquid (PIL) augmented membranes were fabricated through self-polymerization of 2-vinyl pyridine and 4-vinyl pyridine followed by dopamine triggered polymerization and bridging with inert polyamide support. The resulting membranes acquired a positive surface charge with a high degree of...

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Main Authors: Sandrina DePaz, Arijit Sengupta, Yu-Hsuan Chiao, Sumith Ranil Wickramasinghe
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Polymers
Subjects:
poly(ionic liquids)
membrane
mass transfer
sugar fractionation
dyes
Online Access:https://www.mdpi.com/2073-4360/13/14/2366
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spelling doaj-05129a2cabfa4ab19048fbefe00bb2332021-07-23T14:02:45ZengMDPI AGPolymers2073-43602021-07-01132366236610.3390/polym13142366Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and SugarSandrina DePaz0Arijit Sengupta1Yu-Hsuan Chiao2Sumith Ranil Wickramasinghe3Ralph E Martin College of Chemical Engineering, University of Arkansas, Fayetteville, AR 72701, USARadiochemistry Division, Bhabha Atomic Research Centre, Mumbai 400085, IndiaRalph E Martin College of Chemical Engineering, University of Arkansas, Fayetteville, AR 72701, USARalph E Martin College of Chemical Engineering, University of Arkansas, Fayetteville, AR 72701, USAPoly(ionic) liquid (PIL) augmented membranes were fabricated through self-polymerization of 2-vinyl pyridine and 4-vinyl pyridine followed by dopamine triggered polymerization and bridging with inert polyamide support. The resulting membranes acquired a positive surface charge with a high degree of hydrophilicity. Fourier transformed Infra-red (FTIR) and Energy dispersive X-ray (EDX) spectroscopic investigation revealed the successful augmentation of PIL surface layer, whereas surface morphology was investigated through scanning electron microscopy (SEM) imaging. This manuscript demonstrates pi electron-induced separation of dyes with the trend in permeability: Coomassie Brilliant Blue G (CBBHG) > Remazol Brilliant Blue R (RBBR) > Eichrome Black T (EBT) > Congo Red (CR). CBBG exhibited extended conjugation over large aromatic domain. RBBR and EBT were associated withtheelectron-donating -NH<sub>2</sub> group and electron-withdrawing -NO<sub>2</sub> group, respectively, hence pi electron density on aromatic ring varied. The steric repulsion between two pairs of ortho hydrogens (Hs) in biphenyl moieties of CR resulted in deviation of planarity and hence aromaticity leading to the lowest permeability. The sugar fractionation followed the trend: Galactose > Mannose > Fructose > Glucose > Xylose. More hydroxyl (-OH) groups in sugars and their conformational alignment in the same direction, exhibited more lone pair of electrons leading to more interaction with PIL and hence better permeability. Pentose showed poorer permeation than hexose, whereas aldose showed better permeation than ketose.https://www.mdpi.com/2073-4360/13/14/2366poly(ionic liquids)membranemass transfersugar fractionationdyes
collection DOAJ
language English
format Article
sources DOAJ
author Sandrina DePaz
Arijit Sengupta
Yu-Hsuan Chiao
Sumith Ranil Wickramasinghe
spellingShingle Sandrina DePaz
Arijit Sengupta
Yu-Hsuan Chiao
Sumith Ranil Wickramasinghe
Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar
Polymers
poly(ionic liquids)
membrane
mass transfer
sugar fractionation
dyes
author_facet Sandrina DePaz
Arijit Sengupta
Yu-Hsuan Chiao
Sumith Ranil Wickramasinghe
author_sort Sandrina DePaz
title Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar
title_short Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar
title_full Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar
title_fullStr Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar
title_full_unstemmed Novel Poly(ionic liquid) Augmented Membranes for Unconventional Aqueous Phase Applications in Fractionation of Dyes and Sugar
title_sort novel poly(ionic liquid) augmented membranes for unconventional aqueous phase applications in fractionation of dyes and sugar
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2021-07-01
description Poly(ionic) liquid (PIL) augmented membranes were fabricated through self-polymerization of 2-vinyl pyridine and 4-vinyl pyridine followed by dopamine triggered polymerization and bridging with inert polyamide support. The resulting membranes acquired a positive surface charge with a high degree of hydrophilicity. Fourier transformed Infra-red (FTIR) and Energy dispersive X-ray (EDX) spectroscopic investigation revealed the successful augmentation of PIL surface layer, whereas surface morphology was investigated through scanning electron microscopy (SEM) imaging. This manuscript demonstrates pi electron-induced separation of dyes with the trend in permeability: Coomassie Brilliant Blue G (CBBHG) > Remazol Brilliant Blue R (RBBR) > Eichrome Black T (EBT) > Congo Red (CR). CBBG exhibited extended conjugation over large aromatic domain. RBBR and EBT were associated withtheelectron-donating -NH<sub>2</sub> group and electron-withdrawing -NO<sub>2</sub> group, respectively, hence pi electron density on aromatic ring varied. The steric repulsion between two pairs of ortho hydrogens (Hs) in biphenyl moieties of CR resulted in deviation of planarity and hence aromaticity leading to the lowest permeability. The sugar fractionation followed the trend: Galactose > Mannose > Fructose > Glucose > Xylose. More hydroxyl (-OH) groups in sugars and their conformational alignment in the same direction, exhibited more lone pair of electrons leading to more interaction with PIL and hence better permeability. Pentose showed poorer permeation than hexose, whereas aldose showed better permeation than ketose.
topic poly(ionic liquids)
membrane
mass transfer
sugar fractionation
dyes
url https://www.mdpi.com/2073-4360/13/14/2366
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AT yuhsuanchiao novelpolyionicliquidaugmentedmembranesforunconventionalaqueousphaseapplicationsinfractionationofdyesandsugar
AT sumithranilwickramasinghe novelpolyionicliquidaugmentedmembranesforunconventionalaqueousphaseapplicationsinfractionationofdyesandsugar
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