In times of advancing climate change and the urgent need to replace fossil fuels, green hydrogen is increasingly coming into focus. As a versatile energy source that is produced exclusively from ...

Scientists in Europe are developing a new PFAS-free way to produce green hydrogen using far less of the rare metal iridium.

Chinese researchers claim to have improved the performance of a proton exchange membrane electrolyzer by connecting it to a thermal energy storage system. A research group from China has shown how ...

Green hydrogen could be a game-changer for the clean energy transition—but right now, it’s too expensive and still relies on harmful “forever chemicals.” A new EU-backed project called SUPREME aims to ...

The race for green hydrogen dominance is on, with global markets ramping up the scale of their ambition in terms of deployment. But this too is causing a further fight for market share among the three ...

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 ...

Researchers led by Ryuhei Nakamura at the RIKEN Center for Sustainable Resource Science (CSRS) in Japan have improved on their green and sustainable method of extracting hydrogen from water by using a ...

Converting all of today’s fossil-fueled gray hydrogen production into the green form of the energy carrier would require 950 TW of electrolyzer capacity. With four to five PW of electrolyzer capacity ...

Designing optimized catalysts that use least amount of iridium has been a challenge. Water electrolysis offers an ideal process for hydrogen production, which could play a key role in the global ...

The e-fuel economy takes another important step towards industrialization. Construction is about to start on Europe’s largest commercial plant to produce green methanol for marine purposes. Siemens ...