This study is led by Prof. Zang (College of Chemistry, Zhengzhou University), and the research team reports on the first icosahedral superatomic silver nanoclusters Ag 13 and its analogs Au 13. The ...

Over the past decade, experts in the field of nanotechnology and materials science have been trying to devise architectures composed of small structures that spontaneously arrange themselves following ...

Research led by a physicist at the University of California, Riverside, shows how viruses form protective shells (capsids) around their genomes, a process that—while messy and complex—consistently ...

For University of Washington Institute of Protein Design scientists working to invent molecular tools, vehicles, and devices for medicine and other fields, the icosahedron's geometry is inspiring. Its ...

Quasicrystals are intriguing materials with long-range atomic order that lack periodicity. It has been a longstanding question whether antiferromagnetism, while commonly found in regular crystals, is ...

A team of physicists and a virologist explains how large virus shells are formed. Their work can also be used also to explain how large spherical crystals form in nature. This understanding may help ...

Determining the structure of a virus is an important step in understanding and treating viral disease. For decades, structural biologists have been using cryo-electron microscopy to create ...

WEST LAFAYETTE, Ind. — Determining the structure of a virus is an important step in understanding and treating viral disease. For decades, structural biologists have been using cryo-electron ...

The same 20-sided solid that was morphed into geodesic domes in the past century may be the shape of things to come in synthetic biology. For University of Washington Institute of Protein Design ...