Determination of the average number of electrons released during the oxidation of ethanol in a direct ethanol fuel cell

Abstract

The energy efficiency of a direct ethanol fuel cell (DEFC) is directly proportional to the average number of electrons released per ethanol molecule (n-value) at the anode. An approach to measuring n-values in DEFC hardware is presented, validated for the oxidation of methanol, and shown to provide n-values for ethanol oxidation that are consistent with trends and estimates from full product analysis. The method is based on quantitative oxidation of fuel that crosses through the membrane to avoid the errors that would otherwise result from crossover. It will be useful for rapid screening of catalysts, and allows performances (polarization curves) and n-values to be determined simultaneously under well controlled transport conditions.