The Front Cover shows a rotating disk electrode pinball where, thanks to the presence of the sub‐stoichiometric calcium titanate perovskite, the oxygen reduction reaction is facilitated to proceed via the four‐electron pathway. More information can be found in the Communication by L. Mazzapioda et al. on page 5941 in Issue 24, 2019 (DOI: 10.1002/celc.201901292).
Front Cover: Enhancing oxygen reduction reaction catalytic activity using a sub‐stoichiometric CaTiO3−δ additive (ChemElectroChem 24/2019) / Mazzapioda, Lucia; Lo Vecchio, Carmelo; Paolone, Annalisa; Salvatore Aricò, Antonino; Baglio, Vincenzo; Assunta Navarra, Maria. - (2019).
Front Cover: Enhancing oxygen reduction reaction catalytic activity using a sub‐stoichiometric CaTiO3−δ additive (ChemElectroChem 24/2019)
Mazzapioda, Lucia;Paolone, Annalisa;Assunta Navarra, Maria
2019
Abstract
The Front Cover shows a rotating disk electrode pinball where, thanks to the presence of the sub‐stoichiometric calcium titanate perovskite, the oxygen reduction reaction is facilitated to proceed via the four‐electron pathway. More information can be found in the Communication by L. Mazzapioda et al. on page 5941 in Issue 24, 2019 (DOI: 10.1002/celc.201901292).File allegati a questo prodotto
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