Membranes (Jul 2012)

Plasma Membranes Modified by Plasma Treatment or Deposition as Solid Electrolytes for Potential Application in Solid Alkaline Fuel Cells

  • Christophe Coutanceau,
  • Marc Reinholdt,
  • Jean Durand,
  • Valérie Flaud,
  • Serguei Martemianov,
  • Alina Ilie,
  • Eric Beche,
  • Stéphanie Roualdès,
  • Mauricio Schieda,
  • Jérémy Frugier

DOI
https://doi.org/10.3390/membranes2030529
Journal volume & issue
Vol. 2, no. 3
pp. 529 – 552

Abstract

Read online

In the highly competitive market of fuel cells, solid alkaline fuel cells using liquid fuel (such as cheap, non-toxic and non-valorized glycerol) and not requiring noble metal as catalyst seem quite promising. One of the main hurdles for emergence of such a technology is the development of a hydroxide-conducting membrane characterized by both high conductivity and low fuel permeability. Plasma treatments can enable to positively tune the main fuel cell membrane requirements. In this work, commercial ADP-Morgane<sup>®</sup> fluorinated polymer membranes and a new brand of cross-linked poly(aryl-ether) polymer membranes, named AMELI-32<sup>®</sup>, both containing quaternary ammonium functionalities, have been modified by argon plasma treatment or triallylamine-based plasma deposit. Under the concomitant etching/cross-linking/oxidation effects inherent to the plasma modification, transport properties (ionic exchange capacity, water uptake, ionic conductivity and fuel retention) of membranes have been improved. Consequently, using plasma modified ADP-Morgane<sup>®</sup> membrane as electrolyte in a solid alkaline fuel cell operating with glycerol as fuel has allowed increasing the maximum power density by a factor 3 when compared to the untreated membrane.

Keywords