Using robots and click chemistry, scientists built potential active ingredients for future antibiotics that contain metal.

Coordination polymers and metal complexes represent a versatile class of materials, formed through the assembly of metal ions or clusters with organic or inorganic ligands. These systems exhibit ...

The field of metal complexes and redox activity has evolved substantially, offering novel insights into the interplay between transition metal centres and redox-active ligands. These complexes exhibit ...

Antibiotic resistance is steadily eroding one of modern medicine’s most essential tools. Each year, more than a million people lose their lives to infections that were once easily treatable, a ...

(a) Schematic of the liquid cell for XAS analysis of metal porphyrin complexes in aqueous solutions. XAS spectra of the central metals were obtained at the Fe or Co L 2,3-edge and those of ligands ...

Skeletons I-V containing three or four coplanar M–C σ bonds are shown on the left. The two skeletons with five coplanar M–C σ bonds are placed on the right. Art by Dafa Chen. This study is led by Dr.

Researchers developed a powerful new manganese complex that could revolutionize light-driven chemical reactions. It absorbs light extremely efficiently, has a uniquely long excited-state lifetime, and ...

The binary nature of single-molecule magnets—metal coordination complexes with switchable magnetic polarity—makes them good candidates for designing new technologies like miniaturized memory storage ...