The commercial breakthrough of solid oxide fuel cells (SOFCs) is still hampered by
degradation related issues. Most SOFCs that perform well do not possess good stability. To …

Solid oxide fuel cells (SOFCs) are efficient and fuel flexible electrochemical energy
conversion devices that can power the future green society with regards to homes, cars, and …

Proton ceramic electrolytic cells (PCECs) are regarded as superior candidates for largescale
hydrogen production by water electrolytic because they are efficient and weakly temperature …

Reversible protonic ceramic electrochemical cells (R-PCECs) are ideally suited for efficient
energy storage and conversion; however, one of the limiting factors to high performance is …

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 the past decade, intensive research on proton-conducting oxide materials has provided a
basis for the development of intermediate-temperature protonic ceramic electrochemical …

Complex oxides are an important class of materials with enormous potential for
electrochemical applications. Depending on their composition and structure, such complex …

Materials engineering is an important trajectory for the design of new complex oxide
compounds for their high-temperature application in solid oxide electrochemical cells …

Symmetrical solid oxide cells (SSOCs) with identical air and fuel electrodes have gained
significant scientific interest in the last decade because they offer several advantages over …

One of the main bottlenecks that limit the performance of reversible protonic ceramic
electrochemical cells (R‐PCECs) is the sluggish kinetics of the oxygen reduction and …