A research team studied how iridium and palladium nanoparticles can change the properties of catalysts with minor degradation ...

University of Oregon chemists are bringing a greener way to make iron metal for steel production closer to reality, a step ...

Researchers have expanded the potential of carbon capture technology that plucks CO2 directly from the air by demonstrating that there are multiple suitable and abundant materials that can facilitate ...

Carbon nanoparticles are a by-product of making carbon nanotubes in an arc melter and have potentially useful optical properties. A recent discovery shows that these particles can be obtained by ...

Based on physical and chemical characteristics, some of the important classes of nanoparticles are: Carbon-based – (fullerenes, carbon nanotubes, graphene, carbon dots). These materials are of great ...

Researchers have found a lower-cost way to capture carbon dioxide from the air by using humidity changes and more affordable ...

In a significant advancement, researchers from the Nanoscience Center (NSC) at the University of Jyväskylä, Finland, have ...

Scientists have for the first time filmed the real-time growth and contraction of Palladium nanoparticles, opening new avenues for utilising and recycling precious metal catalysts.

Carbon Black, for example, has been used in tires since 1930. Today, the production capabilities for specially designed nanomaterials have increased considerably. Most synthetically produced ...

For the first time, researchers at the University of Nottingham’s School of Chemistry filmed the real-time growth and ...

Scientists have for the first time filmed the real-time growth and contraction of palladium nanoparticles. Their observations ...