A proof-of-concept system developed in the lab of Professor Ted Sargent uses manganese oxide and electricity to pull CO₂ efficiently from real-world air conditions.

Plants capture carbon dioxide naturally, using sunlight to grow and flourish. Scientists have now found inspiration from nature to develop a groundbreaking system that harnesses sunlight for capturing ...

Add Yahoo as a preferred source to see more of our stories on Google. Israeli scientists make carbon capture faster and practical (photo credit: SHALEV SHALOM/TPS) “The goal was to understand what’s ...

Capturing carbon dioxide (CO 2) from industrial emissions is crucial in the fight against climate change. But current methods, like chemical absorption, are expensive and energy-intensive. Scientists ...

Future Markets, Inc. presents "The Global Activated Carbon Market 2026-2036," offering an in-depth strategic outlook on this essential filtration material. Key growth drivers include global ...

Scientists have developed a fast and energy efficient way to produce advanced carbon materials capable of capturing carbon dioxide, a major greenhouse ...

As the world grapples with the urgent need to limit global warming to less than +2.0°C, carbon dioxide removal technologies have moved from the margins to the mainstream of climate strategy. According ...

University of Michigan researchers have helped develop a method to take carbon dioxide, an industrial waste product that pollutes the atmosphere and turn it into something useful: precursors to make ...

Making industrial chemicals like ethylene glycol — a key component in polymer production and familiar to many as antifreeze — consumes large amounts of energy and releases significant carbon dioxide ...

A new microwave-assisted method creates nitrogen-doped ultramicroporous carbon from coal in minutes, dramatically cutting energy use while achieving high CO2 capture performance.