Chirality is discussed, followed by enantiomers, diastereomers, racemic mixtures, and meso compounds. Optical activity and Fischer projections are also covered. These topics span a timeframe of ...

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 ...

Since essentially all syntheses of optically active compounds currently use optically pure catalysts or starting materials, chemists are dependent upon nature for their supply. New knowledge for ...

One promising application for chiral semiconductors is in display technology. Current displays often waste a significant ...

Chirality, essential in fields like chiral sensing and molecular recognition, offers potential for enhancing these materials' multifunctionality, though research remains scarce. Notably ...

The term chiral refers to a type of asymmetry that allows some chemical compounds to exist in left-handed and right-handed forms. Often, only one of these forms has the desired biochemical ...

Further manipulation during the process resulted in liquid crystal assembly pathways that were either achiral or chiral. Both resulted in a clear improvement in efficiency and stability of the OSC ...