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

Organophosphorus chemistry has long been a cornerstone of both fundamental research and industrial applications, spanning the synthesis of pharmaceuticals, flame retardants, catalysts and advanced ...

Metal clusters and coordination complexes represent a rapidly evolving area of research that bridges fundamental inorganic chemistry and practical applications in materials science, catalysis and ...

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 ...

Researchers have used a cutting-edge robotic system capable of synthesising hundreds of metal complexes to develop a possible antibiotic candidate - offering fresh hope in the global fight against ...

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 ...

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 ...

Researchers at Kumamoto University, in collaboration with colleagues in South Korea and Taiwan, have discovered that a unique ...