Molecular chirality is a fundamental feature of living systems and asymmetric chemistry, yet its origin remains unresolved ...

Circularly polarized light has properties that make it useful in a growing range of technologies, from next-generation 3D displays to bioimaging tools that can detect signals deep within living ...

With a carefully designed experiment and a handful of tin atoms, University of Tennessee, Knoxville's physicists have found a long-sought form of superconductivity, taking one more step toward ...

New molecular design unlocks high photoluminescence efficiency and improved stability, with potential applications in lasers, ...

Circularly polarized light has properties that make it useful in a growing range of technologies, from next-generation 3D displays to ...

The newly detected molecules appear tied to processes linked with life itself, raising fresh speculation about what may exist ...

A material built to tell left-handed light from right-handed light has long had a frustrating weakness. It mostly ignored visible light.

Electron spin may subtly break the symmetry between mirror-image molecules, helping explain why biology chose one molecular ...

In 2024, the scientific community chose to halt mirror-life research as soon as its dangers became clear. Are the artificial ...

The resulting material retains the handedness that makes chiral semiconductors promising building blocks for next-generation ...