Recently, researchers have focused on non-noble metal catalysts to replace noble metal
catalysts for oxygen evolution reaction that is crucial for hydrogen production from water …

Electrochemical water splitting has a promising future in producing high-density and green
hydrogen, however, the sluggish H2O dissociation process, due to the low H2O adsorption …

Precise control is critically significant for synthesizing highly efficient bifunctional water
splitting electrocatalyst. This study has developed a facile strategy for fabricating porous Ni …

Transition metal phosphides (TMPs) have attracted attention in electrocatalytic hydrogen
production because of their multiple active sites, adjustable structures, complex and variable …

The seriousness of the energy crisis and the environmental impact of global anthropogenic
activities have led to an urgent need to develop efficient and green fuels. Hydrogen, as a …

Electrochemical water splitting produces clean hydrogen fuel as one of the pivotal
alternative energies to fossil fuels in the near future. However, the anodic oxygen evolution …

Abstract Development of efficient and earth-abundant bifunctional catalysts towards oxygen
evolution reaction (OER) and hydrogen evolution reaction (HER) is imperative to overall …

The development of robust nano‐and microstructured catalysts on highly conductive
substrates is an effective approach to produce highly active binder‐free electrodes for …

Hydrogen is a fuel with a potentially zero-carbon footprint viewed as a viable alternative to
fossil fuels. It can be produced in a large scale via electrochemical water splitting using …

Water splitting as an advanced energy conversion technology driven by sustainable energy
is attracting ever-increasing attention for clean hydrogen fuel generation from water. Two …