The ability to reduce the energy consumed and the cost in water splitting is crucial for the
generation of hydrogen, which can be stored and then oxidized to deliver clean, abundant …

Electrolyzing water technology to prepare high-purity hydrogen is currently an important field
in energy development. However, the preparation of efficient, stable, and inexpensive …

Electrocatalytic water splitting driven by renewable energy input to produce clean hydrogen
(H2) has been widely considered a prospective approach for a future hydrogen-based …

Renewable energy-driven hydrogen generation from water electrolysis has been widely
recognized as a promising approach to utilize sustainable energy resources, reduce our …

The development of efficient hydrogen evolution reaction electrocatalysts is critical to the
realization of clean hydrogen fuel production, while the sluggish kinetics of the Volmer‐step …

Long-term anode durability with high intrinsic activity is crucial to deliver affordable green
hydrogen by electrochemical water splitting. Current research mainly focuses on tuning the …

The development of non-precious, high-efficient and durable electrocatalysts for H 2
evolution in alkaline media is highly desirable. Herein we report NiCoP nanoleaves array …

Water electrolysis is an important energy conversion technology used to produce hydrogen
on a mass scale. Until now, special emphasis has been placed on technology development …

Efficient oxygen and hydrogen evolution electrocatalysts, based on low-cost and earth-
abundant elements, are strongly required for sustainable hydrogen production through …

Hydrogen (H2) is an important clean energy carrier due to the merits of high combustion
value and zero-carbon emission. Water electrolysis has been regarded as a promising …