This module has been designed to introduce second-year organic chemistry students to the concepts of stereochemistry through the lens of the World Health Organization’s Model List of Essential ...

Chiral ligands, such as small organic molecules or peptides, can be used to direct the synthesis of chiral nanostructures. These ligands bind to the surface of nanoparticles or nanocrystals, inducing ...

The phenomenon is called chirality, and the molecules that have this property are called chiral molecules. For the latter ones, this means that the left-handed and the right-handed molecules, also ...

A major breakthrough in organic semiconductors has been achieved, potentially transforming display technology and even future computing. By designing a material that forces electrons to spiral, ...

Ernst and Voigt are interested in so-called chirality, the "handedness" that characterizes many organic molecules. Although chiral structures are chemically identical, they cannot be rotated into ...

The discovery of this transformation not only facilitates the development and application of chiral vicinal diamines in organic synthesis but also enriches the diboron chemistry and pericyclic ...

Chiral small organic molecules have been found to be very beneficial for producing CPL. Chiral means that the molecule cannot be superimposed on its mirror image. Chirality is important for CPL ...

However, in nature, molecules often have a chiral (left- or right-handed ... "When I started working with organic semiconductors, many people doubted their potential, but now they dominate ...

The researchers have created an organic semiconductor that forces ... However, in nature, molecules often have a chiral (left- or right-handed) structure: like human hands, chiral molecules ...