The rapidly growing field of research on chiral phonons is giving researchers new insights into the fundamental behaviors and structures of materials. The chirality of phonons could pave the way for ...
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 ...
The non-chiral kagome lattice (corner-sharing triangles) basis of the topological material KV3Sb5 is found to develop subtle electronic chirality near the surface which shows distinct electromagnetic ...
It is often desirable to restrict flows—whether of sound, electricity, or heat—to one direction, but naturally occurring systems almost never allow this. However, unidirectional flow can indeed be ...
Chiral molecules present a particular challenge for analytical laboratories.Two enantiomers can share the same chemical ...
What sets CNTs apart is the concept of chirality. The production of CNTs can follow either a chirality-controlled or a non-chirality-controlled process, such as armchair, zigzag, or chiral. For ...
Polarized light waves spin clockwise or counterclockwise as they travel, with one direction behaving differently than the other as it interacts with molecules. This directionality, called chirality or ...
Scientists have made a significant leap forward in the field of chiral molecules. The team achieved near-complete separation in quantum states for these essential components of life. This discovery ...
Superconductors are materials that, below a certain critical temperature, exhibit zero electrical resistance and completely expel magnetic fields, a phenomenon known as the Meissner effect. They can ...
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