A research team affiliated with UNIST has introduced a cutting-edge modular artificial leaf that simultaneously meets high efficiency, long-term stability, and scalability requirements—marking a major ...

Add Yahoo as a preferred source to see more of our stories on Google. Scientists developed a nanosized oxyhalide photocatalyst with record solar fuel efficiency, achieving breakthroughs in hydrogen ...

With artificial photosynthesis, humankind could utilize solar energy to bind carbon dioxide and produce hydrogen. Chemists have taken this one step further: They have synthesized a stack of dyes that ...

(Nanowerk Spotlight) A transparent leaf bends toward sunlight, its surface gleaming as it splits water into hydrogen and oxygen fuel. This isn't a natural plant—it's an artificial photosynthesis ...

A team has shown that artificial photosynthesis is feasible using organic materials. Using the technique, they successfully synthesized useful organic compounds, including pharmaceutical materials, ...

With artificial photosynthesis, mankind could utilize solar energy to bind carbon dioxide and produce hydrogen. Chemists from Würzburg and Seoul have taken this one step further: They have synthesized ...

Harnessing sunlight to power the future has taken a major step forward thanks to new research on nanosized oxyhalide photocatalysts. A team of Japanese scientists has demonstrated that shrinking and ...

This is what the stack of four dyes synthesised in Würzburg looks like. It represents a further step towards artificial photosynthesis because it absorbs light energy and transfers it quickly and ...