Development of a Novel Zinc/Air Fuel Cell with a Zn Foam Anode, a PVA/KOH Membrane and a MnO2/SiOC-Based Air Cathode

Jean-Francois Drillet; Michael Adam; Suelen Barg; Alexander Herter; Dietmar Koch; Volkmar Schmidt; Michaela Wilhelm

doi:10.1149/1.3507923

ECS Transactions

Development of a Novel Zinc/Air Fuel Cell with a Zn Foam Anode, a PVA/KOH Membrane and a MnO₂/SiOC-Based Air Cathode

Jean-Francois Drillet¹, Michael Adam², Suelen Barg², Alexander Herter³, Dietmar Koch², Volkmar Schmidt³ and Michaela Wilhelm²

© 2010 ECS - The Electrochemical Society
ECS Transactions, Volume 28, Number 32 Citation Jean-Francois Drillet et al 2010 ECS Trans. 28 13 DOI 10.1149/1.3507923

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¹ Karl Winnacker Institute

² University of Bremen

³ University of Applied Sciences Mannheim

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Abstract

A new type of zinc/air fuel cell comprising a Hg/Pb free Zn foam anode, a PVA/KOH electrolyte membrane and a MnO2/SiOC-based cathode was developed in this work. The electrochemical activity of the zinc foam and air electrode was investigated in 6 M KOH under half-cell conditions. The pristine ZnO layer of the foam matrix favoured direct oxidation of the zinc particles to zinc oxide in 6 M KOH. In the laboratory cell, a specific energy of about 500 mWh g-1zinc was measured at 5 mA discharging current with a zinc foam, a PVA/KOH/H2O membrane and a MnO2+Vulcan/carbon paper cathode. A correlation between cell performances and porosity of the zinc foam was found. However, stability of the Zn foam and SiOC GDL materials towards KOH should be improved.

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