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Salcedo-Abraira, P., Biglione, C., Vilela, S. M. F., Grape, E. S., Urena, N., Salles, F., Perez-Prior, M. T., Willhammar, T., Trens, P., Varez, A., Inge, K. A. & Horcajada, P. (2023) High Proton Conductivity of a Bismuth Phosphonate Metal-Organic Framework with Unusual Topology. Chemistry of Materials, 35 4329–4337.
Added by: Richard Baschera (2023-07-06 13:41:59) Last edited by: Richard Baschera (2023-07-06 13:45:02) |
| Type de référence: Article DOI: 10.1021/acs.chemmater.3c00387 Numéro d'identification (ISBN etc.): 0897-4756 Clé BibTeX: SalcedoAbraira2023 Voir tous les détails bibliographiques  |
Catégories: HORSIMN, INTERNATIONAL Créateurs: Biglione, Grape, Horcajada, Inge, Perez-Prior, Salcedo-Abraira, Salles, Trens, Urena, Varez, Vilela, Willhammar Collection: Chemistry of Materials |
Consultations : 1/131
Indice de consultation : 9% Indice de popularité : 2.25% |
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Despite the interest in proton exchange membrane (PEM)technologies(fuel cells and electrolyzers) for energy applications, the low stabilityof the electrolyte materials under working conditions (i.e., humidityand temperature) is one of their major limitations. Metal-organicframeworks (MOFs) have recently emerged as promising electrolytesdue to their higher stability compared with the currently appliedorganic polymers, proton conductivity, and outstanding porosity. Here,a novel robust Bi phosphonate MOF (branded as IEF-7) was successfullysynthesized and fully characterized, exhibiting an unusual topologydue to the irregular coordination geometry of the bismuth cations.Furthermore, IEF-7 exhibited potential porosity, very high chemicaland thermal stability, and free -PO3H groups involvedin its ultrahigh proton conductivity, reaching 1.39 x 10(-2) S cm(-1) at 90 degrees C and 90% relativehumidity for, at least, 3 cycles. In order to improve the consolidationand shaping of the powder for testing its ion conductivity properties,a highly MOF-loaded composite (90 wt %) was prepared by adding a protonconductive sulfonated polysulfone binder. The proton conductivityof the resulting composite was in the same order of magnitude as thecompacted MOF powder, making this polymeric composite electrolytevery promising for PEM technologies.
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