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

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 ...

Researchers have created a dye-sensitized photocatalyst that captures long-wavelength visible light to double solar hydrogen ...

Japan is pushing solar hydrogen into a new phase by teaching its materials to drink in colors of sunlight that used to go to ...

Hydrogen, the lightest element on the periodic table, is a master of escaping almost any container it's stored in. Its ...

A novel dye-sensitized photocatalyst developed at Science Tokyo enables the capture of long-wavelength visible light for ...

Adani Group's clean energy units achieve record scale in solar, wind, and green hydrogen in 2025. First-of-its-kind projects ...

The Adani Group's solar, wind and green hydrogen businesses posted a breakout year in 2025, delivering record scale, ...

In 2025, Adani's clean energy divisions made significant strides in solar, wind, and green hydrogen, marking a pivotal year ...

Using a cryogenic pre-cooling system, hydrogen generated during solar hours is dispensed into buses after being stored at 450 ...

Scientists have simulated a residential building based on a real double-story house in the United Kingdom, combining rooftop agrivoltaics with onsite hydrogen production. Electricity generated by the ...

Duke Florida saving $1 billion with solar power investments, debunking myth intermittency means solar energy won't work on ...