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Physicochemical properties of La0.5Ba0.5Co1-xFexO3-δ (0 ≤ x ≤ 1) as positrode for proton ceramic electrochemical cells

Abstract

We report on essential properties of materials in the series La0.5Ba0.5Co1-xFexO3-δ as positrodes for proton ceramic electrochemical cells (PCECs). The unit cell and thermochemical expansion coefficient (TCEC) of these cubic perovskites decrease with iron content x, the TCEC of La0.5Ba0.5FeO3-δ going as low as 11⋅10-6 1/K. The materials behave as LaMO3 perovskites with small band gaps and Ba acting as acceptors compensated by electron holes and oxygen vacancies. The electrical properties are dominated by p-type conduction with high large polaron mo- bilities for the Co-rich compositions at low temperatures, shifting towards small polaron mobilities with increasing Fe content. X-ray absorption spectroscopy (XAS) shows that Co is in a high spin state and takes on the main part of the cation oxidation state changes, and that hole states are in orbitals overlapping with the O 2p states, confirming the large polaronic behaviour, while holes on Fe are more localised at the cation. Hydration is more pronounced in inert atmospheres, as hydration of oxygen vacancies is easier than hydrogenation and in- creases with Fe content, in line with the commonly accepted finding that delocalization of holes disfavours protonation. Fe-rich compositions benefit from lower TCEC and higher hydration and hence expected proton permeability, at the cost of lower electronic conductivity. The surfaces are hydrophobic irrespective of Fe content, suggesting weak chemisorption of the underlaying water layer, possibly giving relatively many available surface sites for oxygen adsorption, but limited surface proton conductance – both of importance to positrodes for operando PCECs
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Category

Academic article

Language

English

Author(s)

  • Sebastian Lech Wachowski
  • Iga Szpunar
  • Joanna Pospiech
  • Daria Balcerzak
  • Aleksandra Mielewczyk-Gryn
  • Malgorzata Nadolska
  • María Balaguer
  • Jose Serra
  • Einar Vøllestad
  • Maria Gazda
  • Ragnar Strandbakke
  • Truls Norby

Affiliation

  • SINTEF Industry / Sustainable Energy Technology
  • Gdansk University of Technology
  • Polytechnic University of Valencia
  • University of Oslo

Year

2024

Published in

Acta Materialia

ISSN

1359-6454

Volume

284

View this publication at Norwegian Research Information Repository