Improved gas chromatographic separation of enantiomeric carbohydrate derivatives using a new chiral stationary phase

## 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

## Abstract New chiral polymers have been prepared by conversion of cyano groups of polysiloxanes XE‐60 and OV‐225 into carboxylic groups and subsequent coupling to give the respective __S__‐valine‐__R__‐α‐phenyl‐ethyl amide. In contrast to the corresponding stationary phases with __S__‐α‐phenyleth

## Abstract The simultaneous enantioselective gas chromatographic differentiation of the chiral main compounds of lavender, neroli, petitgrain and bitter orange oil [limonene, linalool, linalool oxides (furanoid), linalyl acetate, (__E__)‐nerolidol, __α__‐pinene, __β__‐pinene, terpinen‐4‐ol and __α

Several benzodiazepines were enantioresolved on a new carbohydrate chiral stationary phase based on maltooligosaccharides. The role of organic modifier, ionic strength, pH and temperature are examined and the results are discussed. In general, selectivity and retention were found to decrease with in