in Japan demonstrates the large-scale feasibility of water electrolysis to revolutionize green hydrogen production. 1. A multi-module hydrogen pilot plant in Kawasaki, Japan, launched in May 2024 ...

Much remains to be done to stimulate the production and use of green hydrogen, produced entirely from sun and wind. Electrolysis, the splitting of water into oxygen and hydrogen, with electricity from ...

Researchers in Korea have successfully developed a new material that significantly enhances the efficiency of green hydrogen ...

Everyone and their pet hamster probably knows that the most common way to produce hydrogen is via the electrolysis of water, but there are still a number of steps between this elementary knowledge ...

Large-scale production of green hydrogen from sustainable sources such as sun and wind still requires the removal of technological barriers. Electrolysis, a method of splitting water into hydrogen and ...

Burning fossil fuels has led to a global energy crisis, worsening pollution and climate change. To tackle this problem, we ...

Hydrogen fuel cells are highly efficient. They use hydrogen and oxygen to produce electricity and heat. Electrolysers reverse this process. They split water into hydrogen ... as well as improving ...

Electrolytic hydrogen production ... water-splitting system that efficiently produces hydrogen and oxygen in separate cells. Hydroxide exchange membranes are desirable for water electrolysis ...

Researchers in Korea have successfully developed a new material that significantly enhances the efficiency of green hydrogen ...