US EPA

1448461 

Journal Article 

Role of the glass transition temperature of Nafion 117 membrane in the preparation of the membrane electrode assembly in a direct methanol fuel cell (DMFC) 

Jung, HoY; Kim, JWon 

2012 

Yes 

International Journal of Hydrogen Energy
ISSN: 0360-3199 

37 

17 

12580-12585 

10.1016/j.ijhydene.2012.05.121 

WOS:000309024700060 

The glass transition temperature (T-g) of the Nafion 117
membrane was traced by DSc step by step during the preparation of the membrane electrode assembly
(MEA). Wide-angle x-ray diffraction and frequency response analysis were used for the
determination of the crystallinity and proton conductivity of the membrane. As-received Nafion
117 membrane showed two glass transition temperatures in the DSC thermogram. The first T-g,
caused by the mobility of the main chain in the polymer matrix, was 125 degrees C; the second T-
g, derived from the side chain due to the strong interaction between the sulfonic acid functional
groups, was 195 degrees C. During the pretreatment of the membrane, the T-g of the Nafion 117
membrane drastically decreased because of the plasticizer effect of water. In the hot-pressing
process, the T-g, of the Nafion 117 membrane gradually increased due to the loss of water. When
the Nafion 117 was completely dried, the T-g of the membrane finally reached 132 degrees C.
Thermal heat treatment was then applied to the MEA to obtain high interfacial stability; however,
the membrane developed a crystalline morphology that led to reduced water uptake and proton
conductivity. Therefore, the thermal heat treatment of the MEA should be carefully controlled in
the region of the glass transition temperature (120-140 degrees C) of the Nafion 117 membrane to
ensure the high performance of the MEA. Copyright (C) 2012, Hydrogen Energy Publications, LLC.
Published by Elsevier Ltd. All rights reserved. 

Nafion; Differential scanning calorimetry; Glass transition temperature; Fuel cell; Membrane electrode assembly