Scientists at Stanford University developed carbon capture technique they say is more practical and cost-effective ...

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

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

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

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

Explore the fascinating evolution of Mars atmosphere. Discover how it transformed, becoming trapped in its crust's clay ...

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

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

The most common rock-forming minerals include quartz, feldspar, mica, amphibole, olivine, and calcite. Some rocks are predominantly composed of just one mineral. For example, limestone is a ...

A new paper released today documents the first soil, airfall dust, and rock fragment samples collected by NASA for return from Mars. The University of Nevada, Las Vegas astrobiologist leading the ...

The "Asian Industrial Minerals Directory 2025" has been added to ResearchAndMarkets.com's offering. Trying to obtain industrial minerals can be a very frustrating, time-consuming business. Even ...