A new solar-electrolysis system uses a copper-doped catalyst to turn farm waste into hydrogen and valuable formate.

Scientists have developed a new technique that doubles the amount of hydrogen produced when splitting water molecules with ...

This study presents a highly efficient approach to solar hydrogen production by pairing water electrolysis with the selective oxidation of biomass-derived glucose. Central to this advance is a ...

Hydrogen production through water electrolysis is a cornerstone of the clean energy transition, but it relies on efficient ...

Hydrogen has long been billed as the clean fuel that could power steel mills, cargo ships and even long-haul trucks without ...

Green hydrogen has long been billed as the clean fuel that could decarbonize heavy industry, shipping, and long‑distance ...

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 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 ...

Seawater electrolysis holds immense promise as a means to decarbonize the global energy sector. However, challenges such as anode corrosion by chloride ions, unwanted chloride oxidation reactions, and ...

4. The European Commission approved a €4 billion electrolyzer special fund, providing a 30% subsidy on equipment costs for projects with an annual capacity of ≥500 MW, and set a 2030 target for ...