Water electrolysis is one of the most popular green-hydrogen generation methods, affording
high-purity hydrogen in an environmentally friendly manner. Various breakthroughs have …

The upsurge in the exploitation of state-of-the-art spin-induced electrocatalysts has been
witnessed recently for sustainable energy and related conversion engineering. In this …

Ruthenium (Ru) is an ideal substitute to commercial Pt/C for hydrogen evolution reaction
(HER). Reducing the size of Ru to clusters can greatly increase the utilization of atoms …

In the process of photocatalytic water cracking, the migration rate and utilization rate of
photogenerated charges determine the hydrogen evolution performance of the catalyst. In …

The engineering of the electronic configurations of active sites, together with the production
of more accessible active sites through heterostructure design, has been established as a …

Efficient electrocatalysts are vital to large-current hydrogen production in commercial water
splitting for green energy generation. Herein, a novel heterophase engineering strategy is …

The development of cost-effective electrocatalysts with high performance for oxygen
evolution and urea oxidation reaction (OER/UOR) is desirable but remains a great …

Interface engineering of heterostructures has emerged as a promising approach to enhance
the catalytic activity of nonprecious electrocatalysts. Herein, a novel amorphous cobalt …

Electrocatalytic water splitting coupled with sustainable energies is identified as an
environmentally friendly and renewable strategy to generate high-quality hydrogen for the …

Optimizing the electronic structure on an electrocatalyst is of primary importance to enhance
the electrocatalytic activity in water electrolysis. Herein, motivated by theoretical predictions …