Journal of Power Sources, Vol.172, No.1, 278-286, 2007
Preparation and operation of gas diffusion electrodes for high-temperature proton exchange membrane fuel cells
Gas diffusion electrodes for high-temperature PEMFC based on acid-doped polybenzimidazole membranes were prepared by a tape-casting method. The overall porosity of the electrodes was tailored in a range from 38% to 59% by introducing porogens into the supporting and/or catalyst layers. The investigated porogens include volatile ammonium oxalate, carbonate and acetate and acid-soluble zinc oxide, among which are ammonium oxalate and ZnO more effective in improving the overall electrode porosity. Effects of the electrode porosity on the fuel cell performance were investigated in terms of the cathodic limiting current density and minimum air stoichiometry, anodic limiting current and hydrogen utilization, as well as operations under different pressures and temperatures. (C) 2007 Elsevier B.V. All rights reserved.
Keywords:gas diffusion electrode;polybenzimidazole;phosphoric acid;proton exchange membrane fuel cell;electrode porosity