Your search keyword '"Alonso, José Antonio"' showing total 1 results

1. Active and durable R2MnRuO7 pyrochlores with low Ru content for acidic oxygen evolution.

Author

Galyamin, Dmitry, Torrero, Jorge, Rodríguez, Isabel, Kolb, Manuel J., Ferrer, Pilar, Pascual, Laura, Salam, Mohamed Abdel, Gianolio, Diego, Celorrio, Verónica, Mokhtar, Mohamed, Garcia Sanchez, Daniel, Gago, Aldo Saul, Friedrich, Kaspar Andreas, Peña, Miguel A., Alonso, José Antonio, Calle-Vallejo, Federico, Retuerto, María, and Rojas, Sergio

Subjects

PYROCHLORE, RUTHENIUM catalysts, OXYGEN evolution reactions, ELECTROLYTIC cells, ELECTROCATALYSTS, OXYGEN

Abstract

The production of green hydrogen in water electrolyzers is limited by the oxygen evolution reaction (OER). State-of-the-art electrocatalysts are based on Ir. Ru electrocatalysts are a suitable alternative provided their performance is improved. Here we show that low-Ru-content pyrochlores (R2MnRuO7, R = Y, Tb and Dy) display high activity and durability for the OER in acidic media. Y2MnRuO7 is the most stable catalyst, displaying 1.5 V at 10 mA cm−2 for 40 h, or 5000 cycles up to 1.7 V. Computational and experimental results show that the high performance is owed to Ru sites embedded in RuMnOx surface layers. A water electrolyser with Y2MnRuO7 (with only 0.2 mgRu cm−2) reaches 1 A cm−2 at 1.75 V, remaining stable at 200 mA cm−2 for more than 24 h. These results encourage further investigation on Ru catalysts in which a partial replacement of Ru by inexpensive cations can enhance the OER performance. Ru-pyrochlores find their way as alternative anodes of PEM water electrolyzers, and their high performance is owing to Ru sites embedded in RuMnOx surface layers. Here, a water electrolyser with Y2MnRuO7 and only 0.2 mgRu cm−2 has been tested with significant durability. [ABSTRACT FROM AUTHOR]

Published

2023