Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly

This research is aimed at developing an alternative proton exchange membrane (PEM) with ease of synthesis and more economical material without sacrificing the membrane's performance such as high conductivity and excellent dimensional stability. PEM composed of Sulfonated (poly ether ether keton...

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Main Author: Ramly, Nordiana Nabilla
Format: Thesis
Language:English
Published: 2016
Online Access:https://ir.uitm.edu.my/id/eprint/37530/1/37530.pdf
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spelling my-uitm-ir.375302023-01-26T07:59:09Z Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly 2016 Ramly, Nordiana Nabilla This research is aimed at developing an alternative proton exchange membrane (PEM) with ease of synthesis and more economical material without sacrificing the membrane's performance such as high conductivity and excellent dimensional stability. PEM composed of Sulfonated (poly ether ether ketone), SPEEK and Methyl Cellulose, MC are synthesized then modified by UV-crosslinking technique with Benzoin Ethyl Ether, BEE as photoinitiator. The effect of UV-irradiation period and photoinitiator composition on the proton exchange membrane is examined. The outcome indicates that both stirring and drying period play crucial role in determining the sulfonation degree of a PEM. 60 hours of sulfonation produces degree of sulfonation 68%. FTIR result proves the occurrence of sulfonation when new peaks of -S03 groups appear. The FTIR results also reveal the crosslink reaction of SPEEKMC membrane with BEE is initiated by C-C bonds instead of-SO3 groups hence the membrane conductivity is maintained. By crosslinking the SPEEK with MC polymer the membrane water uptake is reduced. The MC gives more support to SPEEK membrane by enhancing the membrane's water binding capacity and maintaining the membrane dimensional stability at the same time. Although the crosslinked SPEEKMC membrane has lower water uptake than the non-crosslinked PEM, the crosslinked PEM displays higher dielectric constant due to water presence in the channels or pores is bound stronger in the crosslinked PEM and therefore appear less bulky in character. The water molecules of the PEM can attach to the cellulose through hydrogen bonding which enables hydronium ions to travel between the ionic clusters easily consequently enhancing the conductivity. The conductivity of SPEEK-MC membrane is measured by impedance spectroscopy and the addition of MC into SPEEK polymer enhances the conductivity up to 4.69 x 10"3 S.cm"1 at 30°C temperature and 80% relative humidity. The conductivity of the hybrid membrane increased from 4.69 x 10"3 S.cm"1 to 8.76 x 10"3 S.cm^and 6.90 x 10"3 S.cm"1 after radiated with UV-crosslink for 15 minutes and 30 minutes respectively. This new crosslinked hybrid PEM shows good prospect to be used in fuel cell. 2016 Thesis https://ir.uitm.edu.my/id/eprint/37530/ https://ir.uitm.edu.my/id/eprint/37530/1/37530.pdf text en public masters Universiti Teknologi MARA (UiTM) Faculty of Applied Sciences Ali, Ab Malik Marwan
institution Universiti Teknologi MARA
collection UiTM Institutional Repository
language English
advisor Ali, Ab Malik Marwan
description This research is aimed at developing an alternative proton exchange membrane (PEM) with ease of synthesis and more economical material without sacrificing the membrane's performance such as high conductivity and excellent dimensional stability. PEM composed of Sulfonated (poly ether ether ketone), SPEEK and Methyl Cellulose, MC are synthesized then modified by UV-crosslinking technique with Benzoin Ethyl Ether, BEE as photoinitiator. The effect of UV-irradiation period and photoinitiator composition on the proton exchange membrane is examined. The outcome indicates that both stirring and drying period play crucial role in determining the sulfonation degree of a PEM. 60 hours of sulfonation produces degree of sulfonation 68%. FTIR result proves the occurrence of sulfonation when new peaks of -S03 groups appear. The FTIR results also reveal the crosslink reaction of SPEEKMC membrane with BEE is initiated by C-C bonds instead of-SO3 groups hence the membrane conductivity is maintained. By crosslinking the SPEEK with MC polymer the membrane water uptake is reduced. The MC gives more support to SPEEK membrane by enhancing the membrane's water binding capacity and maintaining the membrane dimensional stability at the same time. Although the crosslinked SPEEKMC membrane has lower water uptake than the non-crosslinked PEM, the crosslinked PEM displays higher dielectric constant due to water presence in the channels or pores is bound stronger in the crosslinked PEM and therefore appear less bulky in character. The water molecules of the PEM can attach to the cellulose through hydrogen bonding which enables hydronium ions to travel between the ionic clusters easily consequently enhancing the conductivity. The conductivity of SPEEK-MC membrane is measured by impedance spectroscopy and the addition of MC into SPEEK polymer enhances the conductivity up to 4.69 x 10"3 S.cm"1 at 30°C temperature and 80% relative humidity. The conductivity of the hybrid membrane increased from 4.69 x 10"3 S.cm"1 to 8.76 x 10"3 S.cm^and 6.90 x 10"3 S.cm"1 after radiated with UV-crosslink for 15 minutes and 30 minutes respectively. This new crosslinked hybrid PEM shows good prospect to be used in fuel cell.
format Thesis
qualification_level Master's degree
author Ramly, Nordiana Nabilla
spellingShingle Ramly, Nordiana Nabilla
Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly
author_facet Ramly, Nordiana Nabilla
author_sort Ramly, Nordiana Nabilla
title Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly
title_short Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly
title_full Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly
title_fullStr Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly
title_full_unstemmed Preparation and characterization of UV-Crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / Nordiana Nabilla Ramly
title_sort preparation and characterization of uv-crosslinked sulfonated poly ether ether ketone - methyl cellulose as proton exchange membrane / nordiana nabilla ramly
granting_institution Universiti Teknologi MARA (UiTM)
granting_department Faculty of Applied Sciences
publishDate 2016
url https://ir.uitm.edu.my/id/eprint/37530/1/37530.pdf
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