Oxygen evolution reaction (OER) is an important half‐reaction involved in many
electrochemical applications, such as water splitting and rechargeable metal–air batteries …

Solar‐driven water electrolysis has been considered to be a promising route to produce
green hydrogen, because the conventional water electrolysis system is not completely …

Hydrogen produced via water electrolysis can act as an ideal clean chemical fuel with
superb gravimetric energy density and high energy conversion efficiency, solving the …

Alkaline water electrolysis is commercially desirable to realize large‐scale hydrogen
production. Although nonprecious catalysts exhibit high electrocatalytic activity at low current …

Bifunctional catalysts can facilitate two different electrochemical reactions with conflicting
characteristics. Here, a highly reversible bifunctional electrocatalyst for rechargeable zinc …

Increasing the energy density of lithium-sulfur batteries necessitates the maximization of
their areal capacity, calling for thick electrodes with high sulfur loading and content …

As a potential energy carrier, hydrogen has surged up the priority list as part of broader
decarbonization efforts and strategies to build or acquire clean energy economies. Driven by …

Stable operation of sustainable Zn–air batteries (ZABs) has attracted considerable attention,
but it remains a huge challenge to achieve temperature‐adaptive and fast‐charging ZABs …

Efficient electrochemical overall water splitting requires bi‐functional catalysts that work for
both hydrogen and oxygen evolution reactions (HER/OER). A heterostructure is thus …

In recent years, nanocrystals of metal sulfide materials have attracted scientific research
interest for renewable energy applications due to the abundant choice of materials with …