Chiral separation in liquid chromatography encompasses a suite of methods designed to resolve enantiomers—mirror-image forms of a molecule that often exhibit distinct biological activity. Central to ...

The UCF-developed plasmonic technology, shown here, significantly improves the detection of the chirality of molecules, meeting a crucial demand in the field of medical and pharmaceutical research.

Early in the drug discovery process, it is necessary to begin studies on enantiomerically pure compounds due to the potential for unique efficacy and adverse effects associated with one enantiomer ...

Modern chiral stationary phases allow rapid ER analysis and are applied to separate a wide range of chiral compounds. ER determination via chiral stationary phases allows facile assignment of absolute ...