Transition metal sandwich complexes have long captivated researchers due to their unique bonding arrangements and intriguing electronic characteristics. These complexes feature a central metal ion ...

The Jahn-Teller effect is a fundamental phenomenon observed in a variety of molecular and solid-state systems, particularly those involving transition metal complexes. It arises when a degenerate ...

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 ...

WOLEDs have a great application prospect in daily lighting owing to their merits of low energy consumption, eye protection, and additional flexibility potential. Compared with stacked WOLEDs or ...

Transition metals play a crucial role in various industries, such as pharmaceutical production, by exchanging electrons with supporting ligands to create complexes that facilitate catalytic reactions.

Zinc sits at the heart of many bacterial enzymes, so one of our immune system's simplest defenses is to keep zinc out of reach. Calprotectin, a neutrophil protein abundant at infection sites, is ...

In 1825 Michael Faraday isolated a sweet-smelling chemical that he dubbed bi-carburet of hydrogen. That molecule, better known as benzene, is perhaps the most famous molecular ring in chemistry. Back ...

A team of Penn State researchers has used a new 3D-printing method to produce a complex metal build that was once only possible with welding: fusing two metals together into a single structure. Using ...

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 ...