Green hydrogen is a crucial component in the global effort to decarbonize hard-to-abate sectors, like long-haul transportation, construction, and manufacturing. A process first discovered in the early ...

Hychor, a spin-off from the University of Aberdeen in the UK, has developed a ...

Scientists at the Centre for Nano and Soft Matter Sciences (CeNS), in a collaborative effort, have unveiled a catalyst whose ...

As the global transition toward carbon neutrality accelerates, "water electrolysis"—a technology that splits water ...

A new path has opened for producing high-efficiency green hydrogen by simultaneously ensuring both water electrolysis ...

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 ...

Seawater electrolysis offers a sustainable pathway to green hydrogen by utilising the planet’s most abundant electrolyte. Unlike freshwater splitting, direct seawater electrolysis must overcome ...

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 ...

Green hydrogen imports to Germany must not come at the expense of domestic production, the country’s hydrogen association has ...

A new approach to electrolysis boosts the efficiency of making green hydrogen, a critical step to achieving cost parity with fossil fuels. Back in the 1800s, shortly after the renowned Italian ...

Bloom Energy's electrolyzer technology (Source: Bloom Energy). Developers in the U.S. plan to significantly expand hydrogen production using electrolysis, signaling a shift from hydrocarbon-based ...