Caltech scientists convert CO2 into tough industrial plastics using a dual-loop system powered by renewable electricity.

A research team affiliated with UNIST has introduced a cutting-edge modular artificial leaf that simultaneously meets high ...

Discover how photosynthesis works, the role of chlorophyll, and why this natural process is essential for life on ...

I’m sure we all know that most plants need sunlight to survive. Through photosynthesis, plants use sunlight to convert carbon ...

Scientists created a living material that absorbs CO2 like a tree, offering a low-energy way to fight climate change.

This innovative material uses live cyanobacteria within 3D-printed biostructures to capture atmospheric carbon dioxide.

Climate-tech food startup Arborea’s proprietary BioSolar Leaf system promises to produce nutrient-dense proteins and ...

Learn how the living material from ETH Zurich utilizes cyanobacteria to capture CO2 and reduce the carbon footprint of ...

Removing carbon from the air will take both nature and technology. A balanced approach is key to meeting climate goals.

The air moving above the forest carries valuable information about how trees absorb carbon, and what may happen in the future ...

Technology alone cannot remove enough carbon dioxide from the atmosphere to keep global temperatures within safe limits.

Planting trees has plenty of benefits, but this popular carbon-removal method alone can't possibly counteract planet-warming ...