Although they are emerging technologies for achieving high-efficiency and green and eco-
friendly energy conversion, ceramic electrochemical cells (CECs), ie solid oxide electrolysis …

Reliable and economical energy storage technologies are urgently required to ensure
sustainable energy supply. Hydrogen (H< sub> 2) is an energy carrier that can be produced …

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 …

A traditional composite cathode for proton‐conducting solid oxide fuel cells (H‐SOFCs) is
typically obtained by mixing cathode materials and proton conducting electrolyte of BaCe0 …

Improving the reaction kinetics and durability of air electrodes on protonic ceramic cells is
effective for their commercialization but challenging. Here, we report our electrode design …

Reversible proton ceramic electrochemical cells are promising solid-state ion devices for
efficient power generation and energy storage, but necessitate effective air electrodes to …

The commercialization of reversible protonic ceramic electrochemical cells is hindered by
the lack of highly active and durable air electrodes exposed to high concentration of steam …

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 …

Driven by the demand for the sustainable regeneration of clean energy and high-efficiency
low-cost energy conversion equipment, reversible proton ceramic electrochemical cells (R …

Protonic ceramic fuel cells (PCFCs) are one of the most efficient energy conversion devices.
However, the performance of current PCFCs is greatly limited by the sluggish oxygen …