Poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability

The hydroxide anion exchange polymers are key materials of solid polymer electrolyte devices that operate under alkaline conditions. Here the authors show the rational design of such polymers that exhibit high ion exchange capacity and exceptional stability under highly caustic conditions.

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Autores principales: Jiantao Fan, Sapir Willdorf-Cohen, Eric M. Schibli, Zoe Paula, Wei Li, Thomas J. G. Skalski, Ania Tersakian Sergeenko, Amelia Hohenadel, Barbara J. Frisken, Emanuele Magliocca, William E. Mustain, Charles E. Diesendruck, Dario R. Dekel, Steven Holdcroft
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2019
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Acceso en línea:https://doaj.org/article/fcecb88467c24a6a81b1031cd21ebaf2
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spelling oai:doaj.org-article:fcecb88467c24a6a81b1031cd21ebaf22021-12-02T16:58:24ZPoly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability10.1038/s41467-019-10292-z2041-1723https://doaj.org/article/fcecb88467c24a6a81b1031cd21ebaf22019-05-01T00:00:00Zhttps://doi.org/10.1038/s41467-019-10292-zhttps://doaj.org/toc/2041-1723The hydroxide anion exchange polymers are key materials of solid polymer electrolyte devices that operate under alkaline conditions. Here the authors show the rational design of such polymers that exhibit high ion exchange capacity and exceptional stability under highly caustic conditions.Jiantao FanSapir Willdorf-CohenEric M. SchibliZoe PaulaWei LiThomas J. G. SkalskiAnia Tersakian SergeenkoAmelia HohenadelBarbara J. FriskenEmanuele MaglioccaWilliam E. MustainCharles E. DiesendruckDario R. DekelSteven HoldcroftNature PortfolioarticleScienceQENNature Communications, Vol 10, Iss 1, Pp 1-10 (2019)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Jiantao Fan
Sapir Willdorf-Cohen
Eric M. Schibli
Zoe Paula
Wei Li
Thomas J. G. Skalski
Ania Tersakian Sergeenko
Amelia Hohenadel
Barbara J. Frisken
Emanuele Magliocca
William E. Mustain
Charles E. Diesendruck
Dario R. Dekel
Steven Holdcroft
Poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability
description The hydroxide anion exchange polymers are key materials of solid polymer electrolyte devices that operate under alkaline conditions. Here the authors show the rational design of such polymers that exhibit high ion exchange capacity and exceptional stability under highly caustic conditions.
format article
author Jiantao Fan
Sapir Willdorf-Cohen
Eric M. Schibli
Zoe Paula
Wei Li
Thomas J. G. Skalski
Ania Tersakian Sergeenko
Amelia Hohenadel
Barbara J. Frisken
Emanuele Magliocca
William E. Mustain
Charles E. Diesendruck
Dario R. Dekel
Steven Holdcroft
author_facet Jiantao Fan
Sapir Willdorf-Cohen
Eric M. Schibli
Zoe Paula
Wei Li
Thomas J. G. Skalski
Ania Tersakian Sergeenko
Amelia Hohenadel
Barbara J. Frisken
Emanuele Magliocca
William E. Mustain
Charles E. Diesendruck
Dario R. Dekel
Steven Holdcroft
author_sort Jiantao Fan
title Poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability
title_short Poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability
title_full Poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability
title_fullStr Poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability
title_full_unstemmed Poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability
title_sort poly(bis-arylimidazoliums) possessing high hydroxide ion exchange capacity and high alkaline stability
publisher Nature Portfolio
publishDate 2019
url https://doaj.org/article/fcecb88467c24a6a81b1031cd21ebaf2
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