Transition metal‐based oxyhydroxides (MOOH) derived from the irreversible structural
reconstruction of precatalysts are often acknowledged as the real catalytic species for the …

Replacing fossil fuels with energy sources and carriers that are sustainable, environmentally
benign, and affordable is amongst the most pressing challenges for future socio-economic …

Electrochemical water splitting represents a promising technology for green hydrogen
production. To design advanced electrocatalysts, it is crucial to identify their active sites and …

Green hydrogen production from renewably powered water electrolysis is considered as an
ideal approach to decarbonizing the energy and industry sectors. Given the high-cost supply …

Electrochemical water splitting represents one of the most promising technologies to
produce green hydrogen, which can help to realize the goal of achieving carbon neutrality …

Single-atom catalysts with M–N4 configurations have been highly investigated due to their
great potential in oxygen electrocatalysis. However, their practical applications in Zn–air …

The single‐phase oxides with elemental complexity and compositional diversity, usually
named high entropy oxides, feature homogeneously dispersed multi‐metallic elements in …

Abstract Development of cost‐effective water splitting technology that allows low‐
overpotential operation at high current density with non‐precious catalysts is the key for …

Perovskite oxides are promising electrocatalysts due to their rich composition, facile
synthesis, and favorable stability under oxidizing conditions. Despite extensive research on …

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