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Sulfonated poly(vinyl alcohol)/graphene oxide composite membranes for proton exchange membrane fuel cells
Citation
Ballester, S., Santiago Carretero, Oscar, Teruel Juanes, Roberto, Gil Castell, Oscar, Primaz, C., Pascual Jose, B., Badia, J.D., Leo Mena, Teresa de Jesus 
ORCID: https://orcid.org/0000-0002-9610-1070, Navarro Arévalo, Emilio ORCID: https://orcid.org/0000-0002-9928-9013, Soria, V. and Ribes Greus, A.
(2019).
Sulfonated poly(vinyl alcohol)/graphene oxide composite membranes for proton exchange membrane fuel cells.
In: "XI National and II International Engineering Thermodynamics Congress 11CNIT", 12 a 14 Junio 2019, Albacete (España). pp. 1285-1303.
Description
| Title: | Sulfonated poly(vinyl alcohol)/graphene oxide composite membranes for proton exchange membrane fuel cells |
|---|---|
| Author/s: |
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| Item Type: | Presentation at Congress or Conference (Article) |
| Event Title: | XI National and II International Engineering Thermodynamics Congress 11CNIT |
| Event Dates: | 12 a 14 Junio 2019 |
| Event Location: | Albacete (España) |
| Title of Book: | XI National and II International Engineering Thermodynamics Congress |
| Date: | 2019 |
| Subjects: | |
| Freetext Keywords: | bi-sulfonating and crosslinking composite membranes; graphene oxide; ion conductivity; polymer electrolyte membrane fuel cell |
| Faculty: | E.T.S.I. Navales (UPM) |
| Department: | Arquitectura, Construcción y Sistemas Oceánicos y Navales (Dacson) |
| Creative Commons Licenses: | Recognition - No derivative works - Non commercial |
Abstract
Different crosslinked composite membranes of Poly(vinyl Alcohol) PVA with sulfosuccinic acid SSA as crosslinking agent and graphene oxide GO were prepared and characterized as a function of the sulfonating degree and GO percentage of each component. The chemical structure of membranes was confirmed by Fourier transform infrared spectroscopy FTIR. The good dispersion of GO into the polymer matrix was verified by scanning transmission microscopy SEM. The proton conductivity of the membranes in fully hydrated state was also investigated by electrochemical impedance spectroscopy EIS. To measure the potential use of PVA membranes as electrolyte were tested in a single proton exchange membrane fuel cell PEMFC. The results reveal that the addition of graphene oxide GO improves the thermal and mechanical stability of the composite membranes. The proton conductivity of the prepared membranes strongly increases by combination of matrix's sulfonating and introduction of GO nanoparticles. Thus, the sulfonating of the polymer matrix in the 30sPVA/SSA/GO membrane increases the proton conductivity a 42% and a 67% of maximum power density respect its homologue 30PVA/SSA membrane. In addition, 30sPVA/SSA/sGO membrane shows the lowest values of proton conductivity and maximum power density, which is consistent with the obtained water uptake values and confirms the improvement of barrier property of these composite membranes.
Funding Projects
Type
Code
Acronym
Leader
Title
Government of Spain
ENE2017-86711-C3-2-R
POLYDECARBOCELL
Unspecified
Unspecified
More information
| Item ID: | 64609 |
|---|---|
| DC Identifier: | https://oa.upm.es/64609/ |
| OAI Identifier: | oai:oa.upm.es:64609 |
| Deposited by: | Memoria Investigacion |
| Deposited on: | 17 Jan 2023 11:27 |
| Last Modified: | 17 Jan 2023 11:27 |
