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

Chemists at Stanford University transformed minerals in rocks to absorb carbon dioxide out of the air. Matthew Kanan, senior ...

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

By firing rock dust in standard cement kilns, they altered the mineral's chemistry so that it quickly react with carbon ...

I'm really rooting for the Stanford University researchers working on this carbon removal method. They've found a way to ...

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

As a quick test of reactivity at room temperature, the calcium silicate and magnesium oxide were exposed to water and pure CO 2. Within two hours, both materials had completely transformed into new ...

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

Olivine, a magnesium-iron silicate mineral, is common in the earth’s subsurface, and can sometimes contain other valuable ...