Nickel–molybdenum (Ni–Mo) alloys are promising non-noble metal electrocatalysts for the
hydrogen evolution reaction (HER) in alkaline water; however, the kinetic origins of their …

Electrocatalysis plays a key role in the energy conversion processes central to several
renewable energy technologies that have been developed to lessen our reliance on fossil …

Objective comparisons of electrocatalyst activity and stability using standard methods under
identical conditions are necessary to evaluate the viability of existing electrocatalysts for …

Nickel‐molybdenum (NiMo) alloys can be a possible alternative to platinum as hydrogen
evolution reaction (HER) catalysts because of the superior HER activity. However, the …

The low catalytic kinetics of many non-precious electrocatalysts for hydrogen evolution
reaction is often associated with their adverse hydrogen adsorption/desorption kinetics …

This review focuses on introducing and explaining electrodepostion mechanisms and
electrodeposition-based synthesis strategies used for the production of catalysts and …

This review provides an overview of some important investigations performed on the
development of efficient electrocatalysts in the presence of alkaline solutions. The efficient …

Not noble but effective: A new class of heterogeneous hydrogen‐evolving electrocatalysts
based on inexpensive components was developed. The carbon‐supported nickel …

Splitting water to hydrogen and oxygen is a promising approach for storing energy from
intermittent renewables, such as solar power. Efficient, scalable solar-driven electrolysis …

Water electrolysis is considered as an important technology for an increased renewable
energy penetration. This perspective on low-temperature water electrolysis joins the dots …