Endurance of Nafion-composite membranes in PEFCs operating at elevated temperature under low relative-humidity

PEFCs employing Nafion–silica (Nafion–SiO 2 ) and Nafion-mesoporous zirconium phosphate (Nafion–MZP) composite membranes are subjected to accelerated-durability test at 100°C and 15% relative humidity (RH) at open-circuit voltage (OCV) for 50 h and performance compared with the PEFC employing pristi...

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Bibliographic Details
Published in:Journal of chemical sciences (Bangalore, India) India), 2012-03, Vol.124 (2), p.529-536
Main Authors: SAHU, A K, JALAJAKSHI, A, PITCHUMANI, S, SRIDHAR, P, SHUKLA, A K
Format: Article
Language:English
Subjects:
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
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Summary:PEFCs employing Nafion–silica (Nafion–SiO 2 ) and Nafion-mesoporous zirconium phosphate (Nafion–MZP) composite membranes are subjected to accelerated-durability test at 100°C and 15% relative humidity (RH) at open-circuit voltage (OCV) for 50 h and performance compared with the PEFC employing pristine Nafion-1135 membrane. PEFCs with composite membranes sustain the operating voltage better with fluoride-ion-emission rate at least an order of magnitude lower than PEFC with pristine Nafion-1135 membrane. Reduced gas-crossover, fast fuel-cell-reaction kinetics and superior performance of the PEFCs with Nafion-SiO 2 and Nafion-MZP composite membranes in relation to the PEFC with pristine Nafion-1135 membrane support the long-term operational usage of the former in PEFCs. An 8-cell PEFC stack employing Nafion–SiO 2 composite membrane is also assembled and successfully operated at 60°C without external humidification. Graphical Abstract PEFCs with Nafion-SiO 2 and Nafion-MZP composite membranes exhibit better performance with reduced gas-crossover, faster fuel-cell-reaction kinetics, and lower fluoride-ion-emission rate in relation to the PEFCs with pristine Nafion-1135 membrane.
ISSN:0974-3626
0973-7103
DOI:10.1007/s12039-011-0211-3