Development of polymeric sulfonic acid composite membranes for fuel cell applications

Jimoh Adewole; Abdullah S. Sultan; Amir Al-Ahmed; S. M.Javid Zaidi

Development of polymeric sulfonic acid composite membranes for fuel cell applications

Jimoh Adewole, Abdullah S. Sultan^*, Amir Al-Ahmed, S. M.Javid Zaidi

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Polymer blends comprising sulfonated poly (ether ether ketone) (SPEEK) and 3wt% (2- acrylamido-2-methyl-1-propanesulfonic acid) (PAMPS) were prepared by solution casting method. Two solvents (N,N-Dimethylacetamide (DMAc) and N-Methyl-2-pyrrolidone (NMP)) were uesd separately. Residual solvents in the membrane samples after drying were quantified using thermo gravimetric analysis. Effects of periods of sonication (0 to 90 minutes) and types of solvent on the membrane performance were evaluated interms of morphology and water uptake. An attempt was made to correlate membrane performance with the time of sonication in order to select the most suitable solvent and membrane casting conditions for subsequent membrane preparations. For both solvents, the water uptake was observed to first decrease at 10 minutes of sonication and then increased as the sonication time was increased. The minimum water uptake recorded for DMAc samples was 19.23% at 20 minutes sonication time while that of NMP sample was 24.24% at 10 minutes. However membrane morphology was found to deteriorate with increase in sonication time. No correlation was obtained between the membrane properties and the sonication time. In general, membrane performance was better for membranes samples using DMAc than NMP solvent. Therefore, DMAc was selected as the casting solvent for membrane preparation on which further studies will be carried out.

Original language	English
Title of host publication	Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety
Publisher	AIChE
Pages	49-56
Number of pages	8
ISBN (Electronic)	9781634390750
State	Published - 2014

Publication series

Name	Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety

Bibliographical note

Publisher Copyright:
Copyright © American Institute of Chemical Engineers. All rights reserved.

Keywords

Morphology
Residual solvent
Thermogravimetric analysis
Water uptake

ASJC Scopus subject areas

Management of Technology and Innovation
General Chemical Engineering
General Engineering

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Adewole, J., Sultan, A. S., Al-Ahmed, A., & Zaidi, S. M. J. (2014). Development of polymeric sulfonic acid composite membranes for fuel cell applications. In Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety (pp. 49-56). (Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety). AIChE.

Adewole, Jimoh ; Sultan, Abdullah S. ; Al-Ahmed, Amir et al. / Development of polymeric sulfonic acid composite membranes for fuel cell applications. Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety. AIChE, 2014. pp. 49-56 (Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety).

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title = "Development of polymeric sulfonic acid composite membranes for fuel cell applications",

abstract = "Polymer blends comprising sulfonated poly (ether ether ketone) (SPEEK) and 3wt% (2- acrylamido-2-methyl-1-propanesulfonic acid) (PAMPS) were prepared by solution casting method. Two solvents (N,N-Dimethylacetamide (DMAc) and N-Methyl-2-pyrrolidone (NMP)) were uesd separately. Residual solvents in the membrane samples after drying were quantified using thermo gravimetric analysis. Effects of periods of sonication (0 to 90 minutes) and types of solvent on the membrane performance were evaluated interms of morphology and water uptake. An attempt was made to correlate membrane performance with the time of sonication in order to select the most suitable solvent and membrane casting conditions for subsequent membrane preparations. For both solvents, the water uptake was observed to first decrease at 10 minutes of sonication and then increased as the sonication time was increased. The minimum water uptake recorded for DMAc samples was 19.23% at 20 minutes sonication time while that of NMP sample was 24.24% at 10 minutes. However membrane morphology was found to deteriorate with increase in sonication time. No correlation was obtained between the membrane properties and the sonication time. In general, membrane performance was better for membranes samples using DMAc than NMP solvent. Therefore, DMAc was selected as the casting solvent for membrane preparation on which further studies will be carried out.",

keywords = "Morphology, Residual solvent, Thermogravimetric analysis, Water uptake",

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language = "English",

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Adewole, J, Sultan, AS , Al-Ahmed, A & Zaidi, SMJ 2014, Development of polymeric sulfonic acid composite membranes for fuel cell applications. in Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety. Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety, AIChE, pp. 49-56.

Development of polymeric sulfonic acid composite membranes for fuel cell applications. / Adewole, Jimoh; Sultan, Abdullah S.; Al-Ahmed, Amir et al.
Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety. AIChE, 2014. p. 49-56 (Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Development of polymeric sulfonic acid composite membranes for fuel cell applications

AU - Adewole, Jimoh

AU - Sultan, Abdullah S.

AU - Al-Ahmed, Amir

AU - Zaidi, S. M.Javid

PY - 2014

Y1 - 2014

N2 - Polymer blends comprising sulfonated poly (ether ether ketone) (SPEEK) and 3wt% (2- acrylamido-2-methyl-1-propanesulfonic acid) (PAMPS) were prepared by solution casting method. Two solvents (N,N-Dimethylacetamide (DMAc) and N-Methyl-2-pyrrolidone (NMP)) were uesd separately. Residual solvents in the membrane samples after drying were quantified using thermo gravimetric analysis. Effects of periods of sonication (0 to 90 minutes) and types of solvent on the membrane performance were evaluated interms of morphology and water uptake. An attempt was made to correlate membrane performance with the time of sonication in order to select the most suitable solvent and membrane casting conditions for subsequent membrane preparations. For both solvents, the water uptake was observed to first decrease at 10 minutes of sonication and then increased as the sonication time was increased. The minimum water uptake recorded for DMAc samples was 19.23% at 20 minutes sonication time while that of NMP sample was 24.24% at 10 minutes. However membrane morphology was found to deteriorate with increase in sonication time. No correlation was obtained between the membrane properties and the sonication time. In general, membrane performance was better for membranes samples using DMAc than NMP solvent. Therefore, DMAc was selected as the casting solvent for membrane preparation on which further studies will be carried out.

AB - Polymer blends comprising sulfonated poly (ether ether ketone) (SPEEK) and 3wt% (2- acrylamido-2-methyl-1-propanesulfonic acid) (PAMPS) were prepared by solution casting method. Two solvents (N,N-Dimethylacetamide (DMAc) and N-Methyl-2-pyrrolidone (NMP)) were uesd separately. Residual solvents in the membrane samples after drying were quantified using thermo gravimetric analysis. Effects of periods of sonication (0 to 90 minutes) and types of solvent on the membrane performance were evaluated interms of morphology and water uptake. An attempt was made to correlate membrane performance with the time of sonication in order to select the most suitable solvent and membrane casting conditions for subsequent membrane preparations. For both solvents, the water uptake was observed to first decrease at 10 minutes of sonication and then increased as the sonication time was increased. The minimum water uptake recorded for DMAc samples was 19.23% at 20 minutes sonication time while that of NMP sample was 24.24% at 10 minutes. However membrane morphology was found to deteriorate with increase in sonication time. No correlation was obtained between the membrane properties and the sonication time. In general, membrane performance was better for membranes samples using DMAc than NMP solvent. Therefore, DMAc was selected as the casting solvent for membrane preparation on which further studies will be carried out.

KW - Morphology

KW - Residual solvent

KW - Thermogravimetric analysis

KW - Water uptake

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M3 - Conference contribution

AN - SCOPUS:84911500554

T3 - Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety

SP - 49

EP - 56

BT - Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety

PB - AIChE

ER -

Adewole J, Sultan AS , Al-Ahmed A, Zaidi SMJ. Development of polymeric sulfonic acid composite membranes for fuel cell applications. In Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety. AIChE. 2014. p. 49-56. (Management Division 2014 - Core Programming Area at the 2014 AIChE Spring Meeting and 10th Global Congress on Process Safety).

Development of polymeric sulfonic acid composite membranes for fuel cell applications

Abstract

Publication series

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

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Cite this