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 ...

Gas chromatography (GC) has progressively evolved with the integration of ionic liquids and tailored stationary phases, offering enhanced separation efficiency, increased thermal stability, and ...

Chromatography of charged analytes is often challenging as they are not retained effectively on the commonly used reversed phase columns and elute in the dead volume. On columns with polar or aqueous ...

Polysaccharide-based chiral stationary phases have been developed that comprise chiral selectors immobilized on their support rather than being physically coated. These materials are completely ...

The chemical composition of the stationary phase in HILIC is often more complex than traditional high-performance liquid chromatography (HPLC) and uses a combination of different molecules that ...

Chromatography is the science of separating molecules of interest to identify, quantify or even purify them. Properties of the target molecules such as their solubility, size or hydrophobicity give ...

The wide range of chromatographic techniques share one common aim: to separate a material into its components. A material, your sample, is dissolved in a solvent, called the mobile phase. This mixture ...