Spreading crushed rocks on fields can absorb CO2 from the air – now chemists have devised a way to turbocharge this process ...

Stanford University chemists have developed a practical, low-cost way to permanently remove atmospheric carbon dioxide, the ...

The fight against climate change inevitably involves reducing greenhouse gas emissions. In parallel, it is also important to ...

Stanford scientists have discovered how to turn common minerals into materials that spontaneously remove and store carbon ...

Researchers in the United States find a low-cost method using rocks to trap carbon dioxide - one of biggest drivers of global ...

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

Reducing carbon dioxide (CO₂) in the atmosphere is critical to slowing global warming. While direct air capture (DAC) ...

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

Stanford University scientists have developed a low-cost method to remove carbon dioxide from the atmosphere.<br /><br /> ...

"Our work solves this problem in a way that we think is uniquely scalable." In nature, common minerals called silicates react with water and atmospheric CO 2 to form stable bicarbonate ions and ...

Scientists say they have figured out how to transform rocks into something extraordinary: a high-tech, low-cost substance ...

Natural silicate minerals such as basalt react with water and CO2 to form solid carbonate materials, a process known as enhanced rock weathering (ERW). Studies suggest spreading crushed silicate ...