Evaluation of a rapid method for preparation of fatty acid methyl esters for analysis by gas—liquid chromatography

Peak measurements and area conlputations provide a substantial portion of the working man-hours required in gas-liquid chromatography, GLC, work. Modern electronic digital computers not only speed simple routine calculations but make it feasible to employ a series of systematic correction factors de

## Abstract The solvation parameter model is used to characterize the separation properties of the polar stationary phases EC‐Wax and PAG with a poly(ethylene oxide) backbone (substituted with propylene oxide in the case of PAG) and the cyanopropyl‐substituted polysilphenylene–siloxane stationary p

A convenient and reliable gas-liquid chromatographic method for determining the free fatty acids in biological specimens is described. The free fatty acids were extracted with hexane in the presence of H3PO4 and then back-extracted from the hexane phase into a very small volume of trimethyl (alpha,

## Abstract We tested different column temperatures and carrier gas linear velocities in a capillary GC system with a high‐resolution column, DB‐23, to determine the shortest run time for analyzing the major components of a fatty acid methyl ester sample from any lipid source. Depending on the samp

The present report describes a simple method to selectively extract free fatty acids and analyze them by capillary gas-liquid chromatography. The procedure is based on the use of fumed silicon dioxide. In the presence of plasma, this material induces a rapid rise in the viscosity of the mixture and