The team created an innovative, nature-inspired hydrogel — a 3D network of polymer material that rapidly absorbs and retains ...

This story is about photosynthesis. It starts roughly 147.000.000 KM away from earth, in the sun and ends underground in my ...

"Answering this question is a huge step toward understanding how we can make the most robust and productive crops possible." ...

A team of scientists with two Department of Energy Bioenergy Research Centers have identified a gene in a poplar tree that ...

A gene called Booster has been identified in poplar trees that boosts photosynthesis and growth by up to 200% in controlled ...

In 2021, researchers from Toyota Central R&D Labs developed a large, cost-effective artificial photosynthesis system that produces industrial formate at a solar-to-chemical conversion efficiency ...

Scientists have engineered sugarcane and sorghum to take advantage of rising levels of carbon dioxide, allowing these crops ...

During natural photosynthesis, chlorophyll absorbs light energy and transfers electrons to convert it into chemical energy. Artificial photosynthesis, which emulates this natural process of ...

As global food and energy demand continues to grow, researchers are exploring multiple strategies to boost crop productivity.

Salk scientists discover how some plant species evolved a more efficient photosynthesis approach; findings could help make crops like rice and wheat more resilient to climate change Cross sections ...

The University of Liverpool has created a hybrid nanoreactor that uses sunlight to produce hydrogen efficiently, offering a ...

As the festive season approaches, evergreen conifers like spruce and pine adorn homes worldwide. But while Christmas trees ...