Microplastics can cut a plant’s ability to photosynthesize by up to 12 percent, new research shows microplastics are ...

A breakthrough in renewable energy research has led to the development of a cost-effective and highly efficient iron-based ...

Scientists are investigating electro-agriculture, a method using acetate derived from CO₂ through electrolysis, potentially ...

It’s no secret that plants rely on sunlight to survive. Photosynthesis, the process of converting solar energy into food, has ...

C3N4 photocatalysts offers new insights into efficient hydrogen production, supporting the shift to renewable energy.

How can we produce clean hydrogen without burning fossil hydrocarbons or other non-renewable energy sources? We can do so ...

A team of researchers of the Department of Physics studied the use of two-dimensional materials, formed by a single atomic ...

Renewable energy is energy that comes from sources that are readily replenishable on short-timescales. Examples of these are solar radiation, wind, and biomass. The fabrication of perovskite ...

Under the sea ice during the Arctic’s pitch-black polar night, cells power photosynthesis on the lowest light levels ever ...

Plants use quantum mechanics to optimize photosynthesis, inspiring new artificial light-harvesting technologies.

A research team led by Assistant Professor Shogo Mori and Professor Susumu Saito at Nagoya University has developed a method ...

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