Electrochemical water splitting is a mature technology for hydrogen generation. Numerous
studies have focused on the development of highly efficient electrocatalysts to produce …

Electrocatalytic water splitting via hydrogen evolution reaction (HER) from renewable energy
sources is an attractive alternative to produce hydrogen, but it still encounters the limitations …

Electrocatalytic water splitting plays a pivotal part towards the construction of sustainable
and environmental benign energy conversion and generation sector that ultimately …

The well‐established proton exchange membrane (PEM)‐based water electrolysis, which
operates under acidic conditions, possesses many advantages compared to alkaline water …

The easily coupled HER and OER catalysts are highly desired for the hydrogen evolution by
overall water splitting. Here, we design and synthesize Co-Mo based catalysts with …

Transition metal nitrides (TMNs), by virtue of their unique electronic structure, high electrical
conductivity, superior chemical stability, and excellent mechanical robustness, have …

Exploring earth‐abundant electrocatalysts with excellent activity, robust stability, and
multiple functions is crucial for electrolytic hydrogen generation. Porous phosphorized …

Hydrogen fuel is considered as the cleanest renewable resource and the primary alternative
to fossil fuels for future energy supply. Sustainable hydrogen generation is the major …

Highly efficient, low-cost electrocatalysts having superior activity and stability are crucial for
practical electrochemical water splitting, which involves hydrogen and oxygen evolution …

Simultaneous highly efficient production of hydrogen and conversion of biomass into value‐
added products is meaningful but challenging. Herein, a porous nanospindle composed of …