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An optimised synthesis of high performance radiation-grafted anion-exchange membranes

High performance benzyltrimethylammonium-type alkaline anion-exchange membranes (AEM), for application in electrochemical devices such as anion-exchange membrane fuel cells (AEMFC), were prepared by the radiation grafting (RG) of vinylbenzyl chloride (VBC) onto 25 μm thick poly(ethylene-co-tetrafluo...

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Main Authors: Wang, L., Magliocca, E., Cunningham, E. L., Mustain, W. E., Poynton, S. D., Escudero-Cid, R., Nasef, M. M., Ponce González, J., Bance Souahli, R., Slade, R. C. T., Whelligan, D. K., Varcoe, J. R.
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Published: Royal Society of Chemistry 2017
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T Technology (General)
Online Access:http://eprints.utm.my/id/eprint/76210/
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spelling my.utm.762102018-06-26T07:53:01Z http://eprints.utm.my/id/eprint/76210/ An optimised synthesis of high performance radiation-grafted anion-exchange membranes Wang, L. Magliocca, E. Cunningham, E. L. Mustain, W. E. Poynton, S. D. Escudero-Cid, R. Nasef, M. M. Ponce González, J. Bance Souahli, R. Slade, R. C. T. Whelligan, D. K. Varcoe, J. R. T Technology (General) High performance benzyltrimethylammonium-type alkaline anion-exchange membranes (AEM), for application in electrochemical devices such as anion-exchange membrane fuel cells (AEMFC), were prepared by the radiation grafting (RG) of vinylbenzyl chloride (VBC) onto 25 μm thick poly(ethylene-co-tetrafluoroethylene) (ETFE) films followed by amination with trimethylamine. Reductions in the electron-beam absorbed dose and amount of expensive, potentially hazardous VBC were achieved by using water as a diluent (reduced to 30–40 kGy absorbed dose and 5 vol% VBC) instead of the prior state-of-the-art method that used organic propan-2-ol diluent (required 70 kGy dose and 20 vol% VBC monomer). Furthermore, the water from the aqueous grafting mixture was easily separated from the residual monomer (after cooling) and was reused for a further grafting reaction: the resulting AEM exhibited an ion-exchange capacity of 2.1 mmol g−1 (cf. 2.1 mmol g−1 for the AEM made using a fresh grafting mixture). The lower irradiation doses resulted in mechanically stronger RG-AEMs compared to the reference RG-AEM synthesised using the prior state-of-the-art method. A further positive off-shoot of the optimisation process was the discovery that using water as a diluent resulted in an enhanced (i.e. more uniform) distribution of VBC grafts as proven by Raman microscopy and corroborated using EDX analysis: this led to enhancement in the Cl− anion-conductivities (up to 68 mS cm−1 at 80 °C for the optimised fully hydrated RG-AEMs vs. 48 mS cm−1 for the prior state-of-the-art RG-AEM reference). A down-selected RG-AEM with an ion-exchange capacity = 2.0 mmol g−1, that was synthesised using the new greener protocol with a 30 kGy electron-beam absorbed dose, led to an exceptional beginning-of-life H2/O2 AEMFC peak power density of 1.16 W cm−2 at 60 °C in a benchmark test using industrial standard Pt-based electrocatalysts and unpressurised gas supplies: this was higher than the 0.91 W cm−1 obtained with the reference RG-AEM (IEC = 1.8 mmol g−1) synthesised using the prior state-of-the-art protocol. Royal Society of Chemistry 2017 Article PeerReviewed Wang, L. and Magliocca, E. and Cunningham, E. L. and Mustain, W. E. and Poynton, S. D. and Escudero-Cid, R. and Nasef, M. M. and Ponce González, J. and Bance Souahli, R. and Slade, R. C. T. and Whelligan, D. K. and Varcoe, J. R. (2017) An optimised synthesis of high performance radiation-grafted anion-exchange membranes. Green Chemistry, 19 (3). pp. 831-843. ISSN 1463-9262 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85013347583&doi=10.1039%2fc6gc02526a&partnerID=40&md5=936d127101dd045ad4d16cde637f7cfa
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic T Technology (General)
spellingShingle T Technology (General)
Wang, L.
Magliocca, E.
Cunningham, E. L.
Mustain, W. E.
Poynton, S. D.
Escudero-Cid, R.
Nasef, M. M.
Ponce González, J.
Bance Souahli, R.
Slade, R. C. T.
Whelligan, D. K.
Varcoe, J. R.
An optimised synthesis of high performance radiation-grafted anion-exchange membranes
description High performance benzyltrimethylammonium-type alkaline anion-exchange membranes (AEM), for application in electrochemical devices such as anion-exchange membrane fuel cells (AEMFC), were prepared by the radiation grafting (RG) of vinylbenzyl chloride (VBC) onto 25 μm thick poly(ethylene-co-tetrafluoroethylene) (ETFE) films followed by amination with trimethylamine. Reductions in the electron-beam absorbed dose and amount of expensive, potentially hazardous VBC were achieved by using water as a diluent (reduced to 30–40 kGy absorbed dose and 5 vol% VBC) instead of the prior state-of-the-art method that used organic propan-2-ol diluent (required 70 kGy dose and 20 vol% VBC monomer). Furthermore, the water from the aqueous grafting mixture was easily separated from the residual monomer (after cooling) and was reused for a further grafting reaction: the resulting AEM exhibited an ion-exchange capacity of 2.1 mmol g−1 (cf. 2.1 mmol g−1 for the AEM made using a fresh grafting mixture). The lower irradiation doses resulted in mechanically stronger RG-AEMs compared to the reference RG-AEM synthesised using the prior state-of-the-art method. A further positive off-shoot of the optimisation process was the discovery that using water as a diluent resulted in an enhanced (i.e. more uniform) distribution of VBC grafts as proven by Raman microscopy and corroborated using EDX analysis: this led to enhancement in the Cl− anion-conductivities (up to 68 mS cm−1 at 80 °C for the optimised fully hydrated RG-AEMs vs. 48 mS cm−1 for the prior state-of-the-art RG-AEM reference). A down-selected RG-AEM with an ion-exchange capacity = 2.0 mmol g−1, that was synthesised using the new greener protocol with a 30 kGy electron-beam absorbed dose, led to an exceptional beginning-of-life H2/O2 AEMFC peak power density of 1.16 W cm−2 at 60 °C in a benchmark test using industrial standard Pt-based electrocatalysts and unpressurised gas supplies: this was higher than the 0.91 W cm−1 obtained with the reference RG-AEM (IEC = 1.8 mmol g−1) synthesised using the prior state-of-the-art protocol.
format Article
author Wang, L.
Magliocca, E.
Cunningham, E. L.
Mustain, W. E.
Poynton, S. D.
Escudero-Cid, R.
Nasef, M. M.
Ponce González, J.
Bance Souahli, R.
Slade, R. C. T.
Whelligan, D. K.
Varcoe, J. R.
author_facet Wang, L.
Magliocca, E.
Cunningham, E. L.
Mustain, W. E.
Poynton, S. D.
Escudero-Cid, R.
Nasef, M. M.
Ponce González, J.
Bance Souahli, R.
Slade, R. C. T.
Whelligan, D. K.
Varcoe, J. R.
author_sort Wang, L.
title An optimised synthesis of high performance radiation-grafted anion-exchange membranes
title_short An optimised synthesis of high performance radiation-grafted anion-exchange membranes
title_full An optimised synthesis of high performance radiation-grafted anion-exchange membranes
title_fullStr An optimised synthesis of high performance radiation-grafted anion-exchange membranes
title_full_unstemmed An optimised synthesis of high performance radiation-grafted anion-exchange membranes
title_sort optimised synthesis of high performance radiation-grafted anion-exchange membranes
publisher Royal Society of Chemistry
publishDate 2017
url http://eprints.utm.my/id/eprint/76210/
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85013347583&doi=10.1039%2fc6gc02526a&partnerID=40&md5=936d127101dd045ad4d16cde637f7cfa
_version_ 1643657248315015168
score 13.160551

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