A University at Buffalo-led team has found a way to help chiral semiconductors, electronic materials whose structures are ...

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 ...

A voltage-driven method enables reversible, tunable chiral states in semiconductor materials. (Nanowerk News) A way to electrically modify the chirality of organic–inorganic hybrid materials, in which ...

BIC architectures typically face a fundamental trade-off between high quality (Q) factors and wide-angle chiral operation.

Researchers have achieved a significant breakthrough in the synthesis of carbon nanotubes (CNTs) by developing a novel catalyst that allows for precise control over their atomic arrangement, known as ...

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 ...

In our high school chemistry classes we all learn about chirality, the property of organic molecules in which two chemically identical molecules can have different structures that are mirror images of ...

(a) Schematics of nonreciprocal transports by fluctuating Cooper pairs. (b) Observed amplitude of nonreciprocity in the chiral organic superconductor in comparison with polar inorganic superconductors ...

Chirality, or molecular handedness, is more than a chemistry concept—it’s shaping medicine, personal care, and advanced technology. From safer drugs to more effective skincare, understanding ...

The recognition of chirality in bioactive molecules is as old as modern organic chemistry itself. Pioneering work by Jean-Baptiste Biot, Louis Pasteur, Emil Fischer, and J. vant Hoff established ...