Proton-conducting solid oxide electrolysis cells (H-SOECs) have attracted significant
attention in recent years. This is due to their advantageous nature compared with the …

Abstracts Proton-conducting ceramics (PCCs) are of considerable interest for use in energy
conversion and storage applications, electrochemical sensors, and separation membranes …

Interest in low-temperature operation of solid oxide fuel cells is growing. Recent advances in
perovskite phases have resulted in an efficient H+/O2-/e-triple-conducting electrode BaCo0 …

Ceramic proton conductors can reduce the operating temperature of solid oxide fuel cells
(SOFCs) to the intermediate temperature range, 400-600° C, due to their higher ionic …

Proton conductors (PCs) are multifunctional perovskite materials with structural, electrical,
and chemical compatibilities that serve as principal components in proton conducting solid …

Reducing the operating temperature in the 500–750° C range is needed for widespread use
of solid oxide fuel cells (SOFCs). Proton-conducting oxides are gaining wide interest as …

The review provides a comprehensive overview on the major findings regarding ion
redistribution at interfaces in oxide systems and its effects on the electrical transport …

Highly stable proton conductive oxide materials with improved electrochemical and
thermochemical properties are in great demand in numerous fields such as portable …

Electrolytes with high-proton conduction and low activation energy are attractive for reducing
the high operating temperature of solid-oxide fuel cells to less than< 600° C. In this work, we …

High-temperature proton conductors have wide applications in the areas of fuel cells,
electrolysis and hydrogen separation. Barium zirconate-based materials are of interest due …