The team has successfully enhanced a crucial component of a bio-electrochemical cell, enabling more efficient hydrogen production ... scale implementation, this structure can lead to pressure ...

Researchers have developed a revolutionary catalyst that dramatically boosts the efficiency and affordability of green ...

Researchers at the Korea Research Institute of Standards and Science (KRISS) have developed a new catalyst that improves the ...

and solid oxide fuel cells (SOFC), as well as improving electrolysis processes for the production of hydrogen. It is working on electrolysers with proton exchange membranes (PEM), on alkaline ...

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

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

Designing a proton-exchange membrane that will balance the efficiency, durability and safety requirements for hydrogen ...

A new contender is rising in the clean-energy arena — electrolysis, which produces green hydrogen by splitting ... resistance with a strong, porous structure needed for efficient gas and liquid ...

Today, we emit a large amount of CO2 during the production of hydrogen. Much remains to be done ... credibility - including design and software – on single-cell and multi-cell lab-scale electrolysis ...

Hydrogen fuel cell vehicles bring together ... This method of generating electricity chemically is called reverse electrolysis. The fuel cell stack is literally a stack of individual fuel cells ...

Electrolytic hydrogen production using ... produces hydrogen and oxygen in separate cells. Hydroxide exchange membranes are desirable for water electrolysis but are limited by their instability ...