Normal phase chromatography separation

Normal Phase Chromatography—Separations mode run on nonbonded, anhydrous porous silica using a nonpolar mobile phase. See Adsorption Chromatography.)... 

A reverse-phase HPLC assay, as part of the Association of Official Analytical Chemists report on analysis of fat-soluble vitamins, was described by DeVries et. al. (65). Analysis were made with a Merck LiChrosorb RP-18 column (Manufacturing Chemists, Inc., Cincinnati, OH) and a acetonitrile propionitrile water (79 15 6) mobile phase. Although adequate chromatography was realized, the authors were concerned that problems arose concerning influence of temperature, dissolution of sample and purification of solvents in the mobile phase. For these reasons they recommended normal-phase chromatography. Separation of vitamins D2 and Dj with their systems was not discussed. 

The choice of the chromatographic system depends on the chemical character of the extracts being separated. The mobile phase should accomplish all requirements for PLC determined by volatility and low viscosity, because nonvolatile components (e.g., ion association reagents and most buffers) should be avoided. It means that, for PLC of plant extracts, normal phase chromatography is much more preferable than reversed-phase systems. In the latter situation, mixtures such as methanol-ace-tonitrile-water are mostly used. If buffers and acids have to be added to either the... 

The TLC process is an off-line process. A number of samples are chromatographed simultaneously, side-by-side. HPTLC is fast (5 min), allows simultaneous separation and can be carried out with the same carrier materials as HPLC. Silica gel and chemically bonded silica gel sorbents are used predominantly in HPTLC other stationary phases are cellulose-based [393]. Separation mechanisms are either NPC (normal-phase chromatography), RPC (reversed-phase chromatography) or IEC (ion-exchange chromatography). RPC on hydrophobic layers is not as widely used in TLC as it is in column chromatography. The resolution capabilities of TLC using silica gel absorbent as compared to C S reversed-phase absorbent have been compared for 18 commercially available plasticisers, and 52 amine and 36 phenolic AOs [394]. 

Normal-phase chromatography is still widely used for the determination of nonpolar additives in a variety of commercial products and pharmaceutical formulations, e.g. the separation of nonpolar components in the nonionic surfactant Triton X-100. Most of the NPLC analyses of polymer additives have been performed in isocratic mode [576]. However, isocratic HPLC methods are incapable of separating a substantial number of industrially used additives [605,608,612-616], Normal-phase chromatography of Irgafos 168, Irganox 1010/1076/3114 was shown [240]. NPLC-UV has been used for quantitative analysis of additives in PP/(Irganox 1010/1076, Irgafos 168) after Soxhlet extraction (88%... 

HILIC is a variant of normal-phase chromatography that employs polar stationary phases and RPLC-type mobile phases. Because HILIC separations occur by a normal-phase mechanism, the organic component of the mobile phase... 

Abbreviations Bn, benzyl. Diasteromers of unknown stereochemistry are characterized by chromatographic behaviour 1 = faster eluting, 2 = slower eluting diastereomer in normal-phase chromatography A, B, etc. designate separated but uncharacterized diastereomers. 

Normal-phase separations are very sensitive to water in the solvent. To speed the equilibration of the stationary phase with changing eluents, organic solvents for normal-phase chromatography should be 50% saturated with water. This can be done by adding a few milliliters of water to dry solvent and stirring. Then separate the wet solvent from the excess water and mix the wet solvent with an equal volume of dry solvent. 

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