Application (Detergent & Cleaning Agents, Precipitated Silica, Pulp & Paper, Water Treatment, Other Application), & Region ...

An innovative method using magnesium-rich silicates for CO2 removal shows promise for scalable carbon management and enhanced ...

Experts have found a way to make silicates rapidly absorb carbon, thanks to what they describe as a “new chemistry.” ...

A team at Stanford has developed a powerful yet low-energy way to trap atmospheric CO2 using heated minerals. By enhancing ...

Every year, the world consumes around 50 billion tonnes of sand, gravel and crushed stone. The astonishing scale of this ...

Stanford chemists find a practical, low-cost way to permanently remove carbon dioxide from the air—the main driver of climate ...

The technique is pretty straightforward and potentially very cheap, but will need to be scaled up significantly to make a ...

Scientists have discovered how to turn common minerals into materials that spontaneously remove and store carbon dioxide from the atmosphere. In the lab, the materials pull CO2 from the air thousands ...

Stanford researchers developed a scalable method to permanently remove CO2 from the atmosphere using heat-activated minerals.

The principle of this method is based on a natural phenomenon: silicate weathering. These minerals, abundant on Earth, react slowly with water and CO2 to form stable carbonates. However, this reaction ...