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

Solid oxide cells (SOCs) have attracted widespread attention due to their high efficiency for
direct conversion of a wide variety of fuels to electricity, renewable electricity to green …

The electrochemical nitrate reduction reaction (NO3RR) is a promising approach for nitrate
removal and NH3 synthesis at ambient conditions. As a complex eight‐electron/nine‐proton …

Electrochemical CO2 reduction to liquid multi‐carbon alcohols provides a promising way for
intermittent renewable energy reservation and greenhouse effect mitigation. Cuδ+(0< δ< 1) …

The direct use of flue gas for the electrochemical CO2 reduction reaction is desirable but
severely limited by the thermodynamically favorable oxygen reduction reaction. Herein, a …

Solid oxide electrochemical cells (SOECs) have demonstrated the potential to be highly
efficient devices for electrochemical CO2 reduction (CO2R) at intermediate temperatures …

Solid oxide electrolysis cells (SOECs) hold enormous potential for efficient conversion of
CO2 to CO at low cost and high reaction kinetics. The identification of active cathodes is …

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

Perovskites with exsolved nanoparticles (P-eNs) have immense potentials for carbon
dioxide (CO2) reduction in solid oxide electrolysis cell. Despite the recent achievements in …

Solid oxide electrolysis cells (SOEC) hold great promise for efficiently converting CO 2 into
valuable products. However, their commercial viability is impeded by the sluggish kinetics of …