Enhanced proton conductivity of Nafionazolebisphosphonate membranes for PEM fuel cells
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The Royal Society of Chemistry and the Centre National de la Recherche Scientifique
Abstract
Fuel cells are among the cleaner alternatives of sustainable energy technologies, where their protón exchange membranes continue to be a key component with many challenges and opportunities ahead. In this study, different indazole- and benzotriazolebisphosphonic acids were prepared and incorporated into new Nafion-doped membranes up to a 5 wt% loading. The new membranes were characterised, and their proton conductivities were evaluated using electrochemical impedance spectroscopy. Membranes with a 1 wt% loading showed better proton conductivities than Nafion N-115 at all temperature and under relative humidity conditions studied. In these conditions, the best value was observed for the membrane doped with [hydroxy(1H-indazol-3-yl)methanediyl]bis(phosphonic acid) (BP2), with a proton conductivity of 98 mS cm-1. Activation energy (Ea) values suggests that both Grotthuss and vehicular mechanisms are involved in the proton conduction across the membrane.
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Citation
F.C. Teixeira, A.I. de Sá, A.P.S. Teixeira, C.M. Rangel, “Enhanced proton conductivity of Nafion-azolebisphosphonates membranes for PEM fuel cells”, New J. Chem., 43, 15249-15257, 2019.