Nature Communications (Apr 2023)

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

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

DOI
https://doi.org/10.1038/s41467-023-37665-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 12

Abstract

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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.