Macrocyclic complexes, distinguished by their ring-shaped ligands, offer unique opportunities in coordination chemistry, providing enhanced selectivity, stability, and tunability of metal centres.

Three-dimensional (3D) metal–plastic composite structures have widespread potential applicability in smart electronics, micro/nanosensing, internet-of-things (IoT) devices, and even quantum computing.

Single-molecule magnets (SMMs) are exciting materials. In a recent breakthrough, researchers have used deep learning to predict SMMs from 20,000 metal complexes. The predictions were made solely based ...

A subzero ice recrystallization route creates multimetal high entropy aerogels and coatings with uniform element mixing, offering a low temperature path to porous macroscopic alloy structures.

Researchers have developed a light-based means of printing nano-sized metal structures that is 480 times faster and 35 times cheaper than the current conventional method. It is a scalable solution ...

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

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

In recent years, research interest in the 3D printing of metal patterns on plastic parts has grown exponentially, due to its high potential in the manufacturing of next-generation electronics. But ...

Synthesizing or studying certain materials in a laboratory setting often poses challenges due to safety concerns, impractical experimental conditions, or cost constraints. In response, scientists are ...