Trends in stationary phases in high-performance liquid chromatography

Solid dimeric rhodium(H) acetate deposited on Corasil II gave good separation of the butenes using high-speed liquid chromatography. Essentially, the unique order of retention times observed with gas-liquid chromatography using rhodium(H) benzoate was found, namely I-butene c tvurts-butene c isobut

The separation mechanism and selectivity of the separation of a group of the 4,4'-substituted E-s-cis and Z-s-cis isomeric chalcones on charge-transfer stationary phases were compared with those on diol, CN, NOz, etc., stationary phases. Correspondence factor analysis and the hierarchical ascending

Chemically bonded stationary phases for use in liquid chromatography can be prepared by the reaction between appropriate silane monomers or partially polymerized silanes and functional groups on the surface of chromatographic support materials. Methods reported so far mostly concern the preparation

The high separating speed, efficiency and operational stability of various micropellicular stationary phases are demonstrated in the high-performance liquid chromatography (HPLC) of biopolymers. The micropellicular sorbents were prepared from 2-microns fluid-impervious silica microspheres as the sup