Chiral gold nanostars show how molecular asymmetry transfers to high-symmetry nanoparticles, producing structures with distinctive optical behavior and enhanced molecular detection. (Nanowerk ...

These results help fill in a critical link in the chain from molecules to organs and bodies, the researchers say. "Our findings provide new insights into how molecular chirality gives rise to cellular ...

The knots in your shoelaces are familiar, but can you imagine knots made from light, water, or from the structured fluids that make LCD screens shine? They exist, and in a new Nature Physics study, ...

A way to electrically modify the chirality of organic–inorganic hybrid materials, in which chiral molecules adsorb onto inorganic surfaces, has been demonstrated by researchers at Science Tokyo. By ...

Chirality is a fundamental property of matter that determines many biological, chemical and physical phenomena. Chiral solids, for example, offer exciting opportunities for catalysis, sensing and ...

The study of chiral nuclear physics explores the phenomenon of handedness that arises from the interplay between triaxial deformation and the angular momentum of valence nucleons. In such systems, the ...

“For the first time, this strategy allows us to efficiently and precisely create a structural motif that was previously difficult to access,” says Friedmann. Specifically, the chemists have discovered ...

Researchers formed stable vortex knots in chiral nematic liquid crystals and used electric pulses to reversibly fuse and split them into different knotted forms. (Nanowerk News) The knots in your ...