Protonic ceramic fuel cells (PCFCs), capable of harmonious and efficient conversion of
chemical energy into electric power at reduced temperature enabled by fast proton …

Proton‐conducting oxide materials are interesting objects from both fundamental and
applied viewpoints due to the origination of protonic defects in a crystal structure as a result …

In spite of various advantages of protonic ceramic fuel cells over conventional fuel cells,
distinct scepticism currently remains about their applicability because of lower-than …

Researchers' interest in proton-conducting reversible solid oxide cells (RSOCs) is growing
due to their distinct benefits. In the present work, single-phase BaCe 0.9–x Mo x Y 0.1 O 3–δ …

The characteristic of a number of oxide materials, which include BaCeO 3-systems, is their
ability to show the proton conductivity along with oxygen-ion conductivity. Such atypical …

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 …

Reversible solid oxide cells based on ceramic proton conductors have potential to be the
most efficient system for large‐scale energy storage. The performance and long‐term …

Oxygen-ionic and proton-conducting oxides are an important class of functional materials for
their applications as electrolytes in various high-temperature electrochemical cells, including …

Proton ceramic fuel cells (PCFCs) are a better alternative to the combustion-based electrical
generators because of their high energy conversion efficiency and low carbon emission at …

Solid oxide fuel cells (SOFCs) are solid-state environmentally friendly power generation
devices with high energy conversion efficiency. Their commercialization has been affected …