Abstract
Band broadening inside chromatographic columns was studied by Giddings 40 years ago. This theory is revisited pointing out that the band width depends only on the band position, x, inside the column and the height equivalent to a theoretical plate, H, and not on the solute affinity for the stationary phase. The band standard deviation, σ, inside the column is simply σ = x H . This property can be used in countercurrent chromatography (CCC), a chromatographic technique that works with a liquid stationary phase. Two possibilities are presented: 1-extrusion of the liquid stationary phase called elution–extrusion method, and 2-slow motion of the stationary phase in the same direction as the mobile phase, called cocurrent CCC method. A mixture of five steroids, prednisone, prednisolone acetate, testosterone, estrone and cholesterol, with partition coefficient varying from 0.1 to 40, is used with a 53 mL CCC column to show the method capabilities. The elution–extrusion method is discontinuous; however, it allows saving dramatic amounts of solvent and time. Cholesterol could be fully resolved in 2 h and 120 mL instead of 7 h and 1.2 L using the classical elution way. The cocurrent CCC method is continuous and was able to resolve cholesterol at baseline in 40 min using 110 mL. Detection is difficult due to the fact that two immiscible liquid phases enter the detector.
Published Version
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