The diverse chiral space covered by enzymes can also ... and especially for chemical biologists working at the interface of chemistry and biology.

Chirality refers to objects that cannot be superimposed onto their mirror images through any combination of rotations or translations, much like the distinct left and right hands of a human. In chiral ...

A new technique involving terahertz light has enabled the creation of chiral states in non-chiral materials, offering ...

Researchers at Leipzig University have developed a new process for reversing the polarity of chemical compounds, also known ...

Researchers at Leipzig University have developed a new process for reversing the polarity of chemical compounds, also known as umpolung, for the precise synthesis of pharmaceuticals. This innovative ...

By using optically active liquid crystals as reaction sites, researchers at University of Tsukuba have successfully achieved ...

If everything that occurs at the microscopic, molecular level in plants and animals and other life forms occurs as a result ...

Chirality is the property of an object that makes it different from its mirror image, like our left and right hands. In ...

Chirality is important in fields like organic chemistry because different chiral forms, or ‘enantiomers,’ can have distinct ...

Lead groups from London, the Netherlands and Israel, in collaboration with a large international network of scientists, have developed chiral organics for photon/electron spin control. A vast array of ...

Chirality is a fundamental property of matter that determines many biological, chemical and physical phenomena. Chiral solids, for example, offer exciting opportunities for catalysis, sensing and ...

Terahertz light has the ability to control solids at the atomic level, forming chiral structures of left- and right-handedness. Chirality refers to objects that cannot be superimposed to their ...