Researchers develop a simple method to build stable, atom-thick metal layers using tiny defects in carbon, enabling efficient ...

Scientists have twisted DNA into programmable nanostructures that form themselves — and could reshape future materials for light, sound, and electronics.

Researchers at CiQUS (University of Santiago de Compostela) have developed a strategy to activate an initially inactive molecule through chemical stimuli, enabling it to recognize and bind to a ...

A Japanese research team has, for the first time, captured real-time images of how supramolecular gels form using high-speed atomic force microscopy, revealing a previously unseen mechanism of ...

Self-assembly of complex molecules is essential for a wide array of biological structures, including proteins, cell membranes, or even entire viruses. Supramolecular chemistry is a field of study ...

Metal-ion-based self-assembly supramolecular theranostics exhibit excellent performance in biomedical applications owing to their potential superiorities for simultaneous precise diagnosis, targeted ...

Peptide self-assembly is a versatile tool that allows mimicking viruses by creating their simplified versions through the design of functional, supramolecular materials with modularity, tunability, ...