The selective conversion of ethanol into potassium acetate with concomitant production of electrical energy has been achieved in both passive and active direct fuel cells containing platinum-free electrodes and an anion-exchange polymer membrane. The power densities supplied by the passive systems at r.t. can be as high as 55mWcm-2, while the active systems can deliver up to 170 mWcm-2 at 80 °C. Such high values have never been reported for direct ethanol fuel cells with whatsoever electrocatalyst in either alkaline or acidic media.

Selective oxidation of ethanol to acetic acid in highly efficient polymer electrolyte membrane-direct ethanol fuel cells / Claudio Bianchini ; Valentina Bambagioni; Jonathan Filippi; Andrea Marchionni; Francesco Vizza ; Paolo Bert ; Alessandro Tampucci. - In: ELECTROCHEMISTRY COMMUNICATIONS. - ISSN 1388-2481. - ELETTRONICO. - 11:(2009), pp. 1077-1080. [10.1016/j.elecom.2009.03.022]

Selective oxidation of ethanol to acetic acid in highly efficient polymer electrolyte membrane-direct ethanol fuel cells

BIANCHINI, CLAUDIO;BAMBAGIONI, VALENTINA;FILIPPI, JONATHAN;MARCHIONNI, ANDREA;VIZZA, FRANCESCO;
2009

Abstract

The selective conversion of ethanol into potassium acetate with concomitant production of electrical energy has been achieved in both passive and active direct fuel cells containing platinum-free electrodes and an anion-exchange polymer membrane. The power densities supplied by the passive systems at r.t. can be as high as 55mWcm-2, while the active systems can deliver up to 170 mWcm-2 at 80 °C. Such high values have never been reported for direct ethanol fuel cells with whatsoever electrocatalyst in either alkaline or acidic media.
2009
11
1077
1080
Claudio Bianchini ; Valentina Bambagioni; Jonathan Filippi; Andrea Marchionni; Francesco Vizza ; Paolo Bert ; Alessandro Tampucci
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/595813
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