Front Cover: Super Hygroscopic Non‐Stoichiometric Cerium Oxide Particles as Electrode Component for PEM Fuel Cells (ChemElectroChem 15/2023)

The Front Cover shows a schematic representation of the oxygen reduction reaction on our gas diffusion electrode. The composite catalyst is based on Pt/C and non‐stoichiometric CeO2. The high hygroscopicity of the latter plays a crucial role in optimizing the water drainage and the cathode/Nafion in...

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Veröffentlicht in:	ChemElectroChem 2023-08, Vol.10 (15), p.n/a
Hauptverfasser:	Mazzapioda, Lucia, Moscatelli, Gabriele, Carboni, Nicholas, Brutti, Sergio, Navarra, Maria Assunta
Format:	Artikel
Sprache:	eng
Schlagworte:	CeO2 Cerium oxides Chemical reduction electrocatalysts Electrodes Gaseous diffusion Hygroscopicity oxygen reduction reaction Oxygen reduction reactions PEM fuel cell Proton exchange membrane fuel cells Stoichiometry
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description	The Front Cover shows a schematic representation of the oxygen reduction reaction on our gas diffusion electrode. The composite catalyst is based on Pt/C and non‐stoichiometric CeO2. The high hygroscopicity of the latter plays a crucial role in optimizing the water drainage and the cathode/Nafion interface, resulting in a considerable improvement in proton conductivity and Fuel Cell performances. Cover design by Nicholas Carboni. More information can be found in the Research Article by L. Mazzapioda et al.
doi_str_mv	10.1002/celc.202300318
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subjects	CeO2 Cerium oxides Chemical reduction electrocatalysts Electrodes Gaseous diffusion Hygroscopicity oxygen reduction reaction Oxygen reduction reactions PEM fuel cell Proton exchange membrane fuel cells Stoichiometry
title	Front Cover: Super Hygroscopic Non‐Stoichiometric Cerium Oxide Particles as Electrode Component for PEM Fuel Cells (ChemElectroChem 15/2023)
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