LOTERCO2.M aims to provide an efficient route for recycling carbon dioxide through co-electrolysis of CO2 and water by using the surplus of energy from intermittent renewable power sources. This process also requires development an efficient catalyst for oxygen evolution. Another important project objective is regarding the development of non-critical raw materials-based electro-catalysts. The activity carried out in WP3 was addressed to the development of anode catalysts both for the acidic and the alkaline environment. In general, there are several catalyst options for the alkaline environment in terms of non-CRM formulations whereas the list of non-CRM catalysts for the protonic environment is restricted to just a few formulations.
D 3.2 Down-selection and supply of anode catalyst for MEA studies
S Campagna Zignani;C Busacca;A Di Blasi;S Siracusano;A Carbone;I Gatto;G Monforte;M Girolamo;M Lo Faro;V Antonucci;V Baglio;
2018
Abstract
LOTERCO2.M aims to provide an efficient route for recycling carbon dioxide through co-electrolysis of CO2 and water by using the surplus of energy from intermittent renewable power sources. This process also requires development an efficient catalyst for oxygen evolution. Another important project objective is regarding the development of non-critical raw materials-based electro-catalysts. The activity carried out in WP3 was addressed to the development of anode catalysts both for the acidic and the alkaline environment. In general, there are several catalyst options for the alkaline environment in terms of non-CRM formulations whereas the list of non-CRM catalysts for the protonic environment is restricted to just a few formulations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.