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

Function (lon-Exchange, Molecular Sieve, Catalyst), Synthetic Zeolites Application (Detergents, Absorbent, Catalysis), Natural Zeolites Application, Framework, Pore Size, and Region - ...

The synthetic segment is expected to account for the largest value share of the zeolites market by type during the forecast ...

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

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

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

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.” ...

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

The fight against climate change inevitably involves reducing greenhouse gas emissions. In parallel, it is also important to develop technologies capable of capturing the carbon dioxide (CO2) ...

New farm fertilizer could remove CO2 from the atmosphere Calcium silicates react faster, making carbon capture more efficient Field trials underway to assess soil impact before large-scale use ...