Transition metals exchange electrons with supporting ligands to form complexes that facilitate reaction catalysis in several industries, like pharmaceutical production. Both the metal center and the ...

Liang Deng's group at the Shanghai Institute of Organic Chemistry, Chinese Academy of Sciences, recently discovered that a dinuclear cobalt carbonyl complex [(Xantphos)Co 2 (CO) 6] coordinated by the ...

New research suggests aluminium could replace costly transition metals as catalysts in pharmaceuticals, benefiting India's ...

A vial in a laboratory being illuminated by a blue-light lamp. Chemists at the University of California, Los Angeles, found that phosphine can exhibit metal-like behavior in photocatalytic reactions ...

A team of chemists has uncovered an unexpected way to use phosphorus to perform chemical reactions typically reliant on rare ...

Researchers from The University of Osaka created a reagent for important building-block molecules with an abundant main-group element, gallium. These early findings show that an organic gallium ...

An illustration of a person in a lab coat looking at a picket fence. The field is various elements, metals specifically. Credit: Chris Gash On a summer day about 20 years ago, Paul Chirik returned to ...

Transition metals form catalytic complexes that can speed up various chemical processes, especially in the production of pharmaceuticals as well as various pigments, dyes, and laboratory reagents like ...