Abstract
A Nafion and polyaniline composite membrane (designated Nafion/PANI) was fabricated using an in situ chemical polymerization method. The composite membrane showed a proton conductivity that was superior to that obtained with Nafion (R) 112 at low humidity (e.g. RH=60%). Water uptake measurements revealed similarities between the Nafion (R) 112 and Nafion/PANI membranes at different humidities. The high conductivity of the Nafion/PANI membrane at low humidity is hypothesized to be due to the existence of the extended conjugated bonds in the polyaniline; proton transfer is facilitated via the conjugated bonds in lower humidity environments allowing retention of the relatively high conductivity. Correspondingly, the performance of a single cell fuel cell containing the Naflon/PANI composite membrane is improved compared to a Nafion (R) 112-containing cell under low humidity conditions. This is important for portable fuel cells, which are required to operate without external humidification. (C) 2008 Elsevier B.V. All rights reserved.