In nature, there exist structures that are mirror images of each other but cannot be perfectly superimposed. These are known ...

A new method of distinguishing chiral molecules could eventually detect distortions inside quantum and soft materials, find ...

A team of engineers has packed light generation, routing, and detection onto a single chip by encoding data in a quantum ...

Researchers in the lab of Cancer Center at Illinois (CCIL) member Xing Wang discovered the influential role of structural chirality, or “handedness”, of a DNA nanostructure to dictate cancer cell ...

Recent studies have revealed that electrons passing through chiral molecules exhibit significant spin polarization—a phenomenon known as chirality-induced spin selectivity. This effect stems from a ...

Chirality is a fundamental property of asymmetry in nature, where an object or molecule cannot be superimposed onto its mirror image. In the context of nanotechnology, chirality refers to the ...

New research describes how the modulation of the geometry of a helical reactor at a macroscopic level enables controlling the sign of chirality of a process at a nanometric scale, an unprecedented ...

Chirality describes a molecule that can't be superimposed on its own mirror image. Two geometrically different chiral molecules of the same formula, distinguished by the R- and S- configuration, ...

Chiral molecules - compounds that are mirror images of each other - play an important role in biological processes and in chemical synthesis. Chemists have now succeeded for the first time in using ...

Figure 1: Microscopy image showing the concentric pattern of F-actin, which gives rise to the clockwise rotation of the nucleus cytoplasm (the colors indicate the ...