What question did this study set out to answer?

The central aim is to understand the governing principles of hydration that affect proton conduction in double perovskites.

March 25, 2026Open Access

Governing principles of hydration of mixed proton conducting Co-based double perovskites

Key Points

The central aim is to understand the governing principles of hydration that affect proton conduction in double perovskites.
Studied a series of 45 double perovskites with the general formula A^I A^II Co_2 O_{6-δ}.
Analyzed the effects of A-site basicity and disorder on hydration.
Investigated the relationship between electron hole population and Co oxidation state.
Identified a correlation between hydration and A-site basicity/disorder.
Demonstrated that electron hole population in Co-O bonds influences protonation.
Found that lanthanides with closed or semi-closed 4f shells affect hydration properties.

Abstract

Abstract Proton ceramic electrochemical cells PCECs hold promise for efficient, sustainable production and use of hydrogen. The positive electrodes are mixed proton conducting perovskites that facilitate water splitting and oxygen reduction, but the factors that determine the protonation are poorly understood. Here, we establish the governing principles of protonation through a study of hydration of 45 double perovskites with the general formula A^{{{I}}}A^{{{II}}}{{{Co}}}₂{{{O}}}₆- A I A II Co 2 O 6 − δ, having Ba or Ba+Sr on A I and a mix of rare earths (Y and lanthanides Ln = La, Pr, Nd, Sm, Gd, Dy, Tb, Lu) on A II. We show how hydration is coupled to the A-site basicity and disorder as well as population of electron holes in the Co-O bond (Co oxidation state), promoted by a closed or semi-closed Ln 4 f shell, i. e. , Ln = La, Gd, Lu.

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Governing principles of hydration of mixed proton conducting Co-based double perovskites

Key Points

Abstract

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