The appropriate catalysts can accelerate the reaction rate and effectively boost the efficient
conversion of various molecules, which is of great importance in the study of chemistry …

The hydrogen energy generated by the electrocatalytic water splitting reaction has been
established as a renewable and clean energy carrier with ultra‐high energy density, which …

Alkaline water splitting, especially anion-exchange-membrane based water electrolysis, is
an attractive way for low-cost and scalable H2 production. Green electricity-driven alkaline …

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 …

Electrocatalytic water splitting is an appealing method for generating renewable hydrogen.
In acidic media, noble metals are commonly used as electrocatalysts, whereas in alkaline …

The green hydrogen generation powered by renewable electricity promises the potential
decarbonization of the hard-to-abate sector and is essential for the fulfillment of the Paris …

Hydrogen economy is imagined where excess electric energy from renewable sources
stored directly by electrochemical water splitting into hydrogen is later used as clean …

The rational design of high-efficiency and stable hydrogen evolution electrocatalysts under
the condition of strong alkali is the key issue for the combination of hydrogen production with …

Designing inexpensive yet active bifunctional electrocatalysts to directly split water is
extremely desirable for the ever-broader applications of hydrogen energy. Herein, we …

Hydrogen production from electrochemical water electrolysis is one of the most effective
solutions to the world's energy dilemma and environmental degradation. Transition metal …