When it comes to hydrogen production, every fraction of a volt saved and every hour of steady operation can swing the ...

Electrolysis is a key component of the cost of green hydrogen, and a Korean team says it's made a huge breakthrough with an anion exchange membrane that's not only cheaper than current proton exchange ...

Researchers have implemented polyphenylene-based anion exchange membranes poised to make hydrogen production more efficient and durable. The robust hydrophobic design enables effective ion transport ...

Among clean energy sources, hydrogen (H 2) has emerged as the preferred energy carrier, boasting a high calorific value and net zero carbon emissions. Proton-exchange-membrane water electrolysis ...

A recent review in Nature Reviews Clean Technology presents, for the first time, a pathway for scaling up decoupled water electrolysis (DWE) technologies to produce industrial-scale green hydrogen.

LANXESS has developed special ion exchange resin grades within its Lewatit UltraPure range that can be used for water treatment in PEM electrolysis (Proton Exchange Membrane Electrolysis). This ...

The development of clean and efficient renewable energy is a key strategy for achieving green energy transition and low-carbon growth. As an ideal "zero-carbon" energy carrier, hydrogen can be ...

Catalysts are the invisible engines of hydrogen energy, governing both hydrogen production and electricity generation.

Hydrogen is a promising energy source due to its high energy density and zero carbon emissions, making it a key element in the shift toward carbon neutrality. Traditional hydrogen production methods, ...