Over the years, significant advances have been made to boost the efficiency of water
splitting by carefully designing economic electrocatalysts with augmented conductivity, more …

Electrolytic hydrogen is expected to play a key role in the production of green fuels and
chemicals, while contributing to balancing consumption and supply in the future electricity …

Recent years have witnessed an upsurge in the development of non-precious catalysts
(NPCs) for alkaline water electrolysis (AWE), especially with the strides made in …

Amongst various futuristic renewable energy sources, hydrogen fuel is deemed to be clean
and sustainable. Electrochemical water splitting (EWS) is an advanced technology to …

Water electrolysis is a promising technology for sustainable energy conversion and storage
of intermittent and fluctuating renewable energy sources and production of high-purity …

Catalysts play a crucial role in water electrolysis by reducing the energy barriers for
hydrogen and oxygen evolution reactions (HER and OER). Research aims to enhance the …

Highly active, stable and low-cost electrocatalysts are critical to make environment-related
electrocatalytic techniques commercially viable. Nanostructured transition metal phosphides …

Energy is an indispensable component in the development of modern society.
Nanostructured transition metal phosphides (TMPs) have recently emerged as versatile and …

The exploitation of cheap and efficient electrocatalysts is the key to make energy‐related
electrocatalytic techniques commercially viable. In recent years, transition metal phosphides …

Transition-metal phosphides have been shown to be promising electrocatalysts in water for
both hydrogen evolution reaction (HER) and oxygen evolution reaction (OER). To maximize …