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

open image in gallery Olivine and serpentine minerals could help scientists capture planet-warming carbon dioxide, according to researchers at Stanford University. They’ve modeled a new strategy ...

A REPORT of the discovery of olivine in the Orgueil carbonaceous ... area electron diffraction patterns obtained from two mineral fragments observed during an electron microscope examination ...

In nature, common minerals called silicates react with water ... needed materials using abundant magnesium silicates such as olivine or serpentine, which is found in California, the Balkans ...

When heated, the minerals exchange ions and become magnesium ... “It’s estimated that there are more than 100,000 gigatons of olivine and serpentine reserves on Earth, enough to permanently ...

Hydrogen from geological formations makes up about 10% of the flammable gases that form the Yanartaş flames near Cirali, ...

In nature, common minerals called silicates react with water and atmospheric ... cement could produce the needed materials using abundant magnesium silicates such as olivine or serpentine, which is ...

Rob Cumming, Lafarge Canada (East), explores how a 'silver buckshot' approach can achieve net-zero concrete without the high ...

Rather than dismissing President Donald Trump’s musings about the importance of the United States acquiring Greenland as ...

Chemists at Stanford University transformed minerals in rocks to absorb carbon dioxide out of the air. Matthew Kanan, senior author of a new study, explained that while the Earth has an endless supply ...

“Our work solves this problem in a way that we think is uniquely scalable.” In nature, minerals such as olivine, serpentine, and pyroxenes slowly react with CO₂ and water to form stable ...