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

Global warming and energy crises have motivated the development of renewable energy
and its energy carriers. Green hydrogen is the most promising renewable energy carrier and …

Reversible protonic ceramic electrochemical cells (R‐PCECs) are emerging as ideal
devices for highly efficient energy conversion (generating electricity) and storage (producing …

Reversible proton ceramic electrochemical cell (R-PCEC) is regarded as the most promising
energy conversion device, which can realize efficient mutual conversion of electrical and …

Reversible protonic ceramic electrochemical cells (R‐PCECs) have received increasing
focus for their good capability of converting and storing energy. However, the widely used …

Oxygen vacancy engineering is a strategy to design efficient oxygen evolution reaction
(OER) catalysts, but it may lower the band center of O 2p and result in high energy barrier …

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 …

A breakthrough in the development of air electrodes is critical to minimizing the performance
deterioration of reversible protonic ceramic electrochemical cells (R‐PCECs), which have …

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 …