Researchers verified the chiral-induced spin selectivity effect, i.e., the influence of chiral molecules on spin, using spintronic analytical techniques. Researchers at Mainz University verified the ...

Chirality—often described as "handedness"—is a fundamental property of nature, underlying the behavior of molecules ranging ...

The study of chiral molecules – entities that exist in non-superimposable mirror images – has profound implications across a range of scientific disciplines, from synthetic chemistry to ...

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 ...

Protons play a central role in energy production within cells. A team of researchers has discovered that their movement is influenced by electron spin, a quantum property. This interaction occurs in ...

For the first time, scientists at ETH Zurich have utilized extremely brief, rotating bursts of light to analyze and modify electron movements in mirror-image molecules. They demonstrated that the ...

Chiral molecules, which have a helical structure, are known to interact with magnets in a phenomenon known as chirality-induced spin selectivity (CISS). For instance, when a chiral molecule is ...

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 ...

Researchers have developed what amounts to a programmable platform for quantum chirality that could provide new approaches to explore interacting electrons in chiral systems. (Nanowerk News) A new ...

(Nanowerk News) The role of electrons and their negative charge in electric current is well established. Electrons also exhibit other intrinsic properties that are associated, for example, with ...