Exploring advanced technologies to efficiently produce green hydrogen energy is imperative
to alleviate the energy crisis and environmental pollution. Conventional overall water …

Water electrolysis is a sustainable approach for hydrogen production by using electricity
from clean energy sources. However, both the hydrogen evolution reaction (HER) and the …

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 …

Electrochemical water splitting is one of the most promising techniques for the sustainable
production of green hydrogen. However, its large-scale commercialization is heavily …

Photo/electrochemical splitting of water to hydrogen (H2) fuel is a sustainable way of
meeting our energy demands at no environmental cost, but significant challenges remain …

Hydrogen fuel is considered as one of the most clean renewable resources, warranting it a
primary alternative to fossil fuels for future energy supplies. Electrocatalytic water splitting is …

Even though transition‐metal phosphides (TMPs) have been developed as promising
alternatives to Pt catalyst for the hydrogen evolution reaction (HER), further improvement of …

It is highly attractive but challenging to develop earth‐abundant electrocatalysts for energy‐
saving electrolytic hydrogen generation. Herein, we report that Ni2P nanoarrays grown in …

As one of the most abundant resources on the Earth, seawater is not only a promising
electrolyte for industrial hydrogen production through electrolysis, but also of great …

Metal sulfides for hydrogen evolution catalysis typically suffer from unfavorable hydrogen
desorption properties due to the strong interaction between the adsorbed H and the …