Mechanism of gas-liquid chromatographic separation of disubstituted benzene isomers using nematic liquid phases

Dicl~lorobenzene isomers were scpxated on scIualane, silicone oil, polyethylcneglycol, polyoxyethylenesorbitan monostearate and polyetl~ylene~lycol succinate. Types of interactions and forces which affected the specific retention volumes and elution orders were discussed. Thermodynamic quantities we

Quantitative separation of halonitrobenzenes, anisoles and toluenes was studied on polyethyleneglycol, polyethyleneglycol succinate, polyoxyethylenesorbitan monostearate, silicone oil and squalane as liquid phases. The interactions and forces that affected the separation of the isomers and their elu

## Abstract A gas‐chromatographic separation of underivatized steroids is described, in which the liquid crystal N,Ń‐bis(p‐phenylbenzylidene)α,α′‐bi‐p‐toluidine (BPhBT) was used isothermally at 265°C for the stationary phase. The nematic range of this crystal is 247 to 403°C. Use of the BPhBT cryst

Reversed-phase liquid chromatography (LC) on C18 stationary phases provides excellent selectivity for the separation of polycyclic aromatic hydrocarbons (PAH). Recent studies have shown that several factors affect selectivity for the LC separation of PAH including phase type (monomericor polymeric),