Light is the fastest way to distinguish right- and left-handed chiral molecules, which has important applications in chemistry and biology. However, ordinary light only weakly senses molecular ...

Metals like rhodium and palladium are C–H activation aces, but these metals are rare and expensive. For several years, chemists led by Lutz Ackermann at the Georg August University Göttingen have been ...

Chiral molecules - compounds that are mirror images of each other - play an important role in biological processes and in chemical synthesis. Chemists have now succeeded for the first time in using ...

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 ...

Atropisomers are a class of stereoisomers (chemical compounds that differ in spatial arrangement of atoms) arising from restricted rotation around a single bond and have various applications in ...

Francesca has an MSci in Biochemistry from the University of Birmingham.View full profile Francesca has an MSci in Biochemistry from the University of Birmingham. You wouldn’t think molecules could be ...

Salk scientists engineered a right-handed RNA enzyme (bottom left) that can combine left-handed RNA fragments (bottom right) to create a mirror image of itself. The new left-handed RNA enzyme (top ...

Like carbon and silicon, germanium’s lighter brethren on the periodic table, the metalloid can bond to four different groups, forming a chiral, tetrahedral molecule. Researchers at Nankai University ...

(Nanowerk Spotlight) Chirality is a critical concept in chemistry and life sciences, especially when applied to the molecular level. Many molecules such as amino acids, proteins, sugars, and DNA are ...

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 ...