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

Water electrolysis is regarded as an efficient and green method to produce hydrogen gas, a
clean energy carrier that holds the key to solving global energy problems. So far, the …

Rational regulation of electrochemical reconfiguration and exploration of activity origin are
important foundations for realizing the optimization of electrocatalyst activity, but rather …

The reasonable design of electrocatalysts with rapid self-reconstruction for an efficient
oxygen evolution reaction (OER) at commercially required current densities is highly …

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 …

A climax in the development of cost-effective and high-efficiency transition metal-based
electrocatalysts has been witnessed recently for sustainable energy and related conversion …

The electrochemical synthesis of chemicals and fuel feedstocks has been demonstrated to
be a sustainable and" green" alternative to traditional chemical engineering, where oxygen …

Over the years, significant advances have been made to boost the efficiency of water
splitting by carefully designing economic electrocatalysts with augmented conductivity, more …

Constructing stable electrodes which function over long timescales at large current density is
essential for the industrial realization and implementation of water electrolysis. However …

The energy efficiency of metal–air batteries and water‐splitting techniques is severely
constrained by multiple electronic transfers in the heterogenous oxygen evolution reaction …