A new catalyst built from isolated indium atoms allows scientists to convert CO2 into methanol more efficiently while revealing the hidden chemistry that drives the reaction.

A newly isolated three-atom aluminum ring reveals unexpected chemistry that could help replace costly metals used in industrial reactions.

Localized anodic oxidation reaction of the material in acidic solution provides method of oxide film to rapidly and reversibly switch between silver surface and matte black.

Researchers have revealed how some non-metal compounds mimic the behavior of their metal-based counterparts in chemical reactions. The research team led by Academy Research Fellow Heikki M. Tuononen ...

A research team has successfully designed and developed a proprietary non-precious metal oxygen evolution reaction (OER) catalyst featuring a layered structure optimized for anion exchange membrane ...

A team led by Abigail Doyle at the University of California, Los Angeles, found that phosphines can show transition- metal-like reactivity in a light-driven reaction between amine-containing rings and ...

These reactions play a huge role in the catalysis-driven creation of common chemical platforms such as methanol, which is produced on the order of 10 million tons per year as raw material for ...

Many patients worry that receiving a metal implant might set off their metal allergy, according to the American Academy of Dermatology. "Cases in which patients are inquiring about a metal allergy as ...

Gallium’s quirky liquid-state properties have pushed that element into the scientific spotlight recently, as researchers have tapped the liquid metal for applications in stretchable electronics and ...