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 ...

A research group at The University of Tokyo has discovered a new principle by which helical chiral molecules acquire spin through molecular vibrations, enabling them to adhere to magnets. Until now, ...

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 ...

Research into chiral molecules has long been driven by the quest to understand the subtle differences between enantiomers—molecules that are mirror images yet non-superimposable. Recent advances in ...

Daegu Gyeongbuk Institute of Science and Technology (DGIST) announced on the 30th that a research team led by Professor Seo ...

Chirality -- a geometric property that allows molecules to exist in two distinct forms that are chemically identical but are 3D mirror images of each other, like a right and left hand -- has a ...

A team of Japanese researchers has discovered a new technique to tweak molecular orientation that could dramatically improve energy transfer when absorbing light. While in its infancy, this discovery ...

Chiral molecules are common in medicines because chirality is common in nature, from spiraling vines and shells to amino acids and various proteins, to the human body's protein receptors, the site of ...

Experiment is an important step towards isolating right- and lefthanded molecules from each other. (Nanowerk News) A team of DESY researchers, led by DESY lead scientist and University of Kiel ...

(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 ...