“We envisioned a new chemistry to activate the inert [not chemically reactive] silicate minerals through a simple ion-exchange reaction,” Chen explained. Ions are atoms or groups of atoms with an ...

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

The nearly 2000-year-old Pantheon, the "Temple of All the Gods" in Rome, holds the record for the world's largest ...

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

Agricultural fertilizers are critical for feeding the world's population, restoring soil fertility and sustaining crops.

Rubidium could be the next key player in oxide-ion conductors. Researchers have discovered a rare rubidium (Rb)-containing oxide-ion conductor with exceptionally high conductivity. Identified through ...

Higher calcium intake is associated with reduced colorectal cancer (CRC) risk across tumor sites and calcium sources, ...

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

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

In a small manganese oxide cluster, teams from HZB and HU Berlin have discovered a particularly exciting compound: two high-spin manganese centers in two very different oxidation states. This complex ...

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

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