The aim of ANIONE project is to realise breakthroughs in Anion Exchange Membrane water electrolysis in order to favour green hydrogen production from renewables on a wide-scale. This means to combine the advantages of proton exchange membrane-based water electrolysis such as high performance, high energy efficiency, high operating pressures and flexible/dynamic behaviour with those of liquid alkaline electrolyte water electrolysis such as low capital equipment costs and use of non-precious metals as the electrocatalysts. Key aspects to enhance AEM water electrolysis are the development of highly conductive and stable membranes and incorporation of a highly durable ionomers in the catalyst layers composed of active non-PGM electrocatalysts.
Data set on catalytic activity, electrochemical performance and stability of enhanced catalysts
Massimiliano Lo Faro;Alessandra;Carbone;S Trocino;Giuseppe Monforte;
2021
Abstract
The aim of ANIONE project is to realise breakthroughs in Anion Exchange Membrane water electrolysis in order to favour green hydrogen production from renewables on a wide-scale. This means to combine the advantages of proton exchange membrane-based water electrolysis such as high performance, high energy efficiency, high operating pressures and flexible/dynamic behaviour with those of liquid alkaline electrolyte water electrolysis such as low capital equipment costs and use of non-precious metals as the electrocatalysts. Key aspects to enhance AEM water electrolysis are the development of highly conductive and stable membranes and incorporation of a highly durable ionomers in the catalyst layers composed of active non-PGM electrocatalysts.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
