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Article Dans Une Revue Journal of Chromatography A Année : 2015

Revisiting resolution in hydrodynamic countercurrent chromatography: Tubing bore effect

Résumé

A major challenge in countercurrent chromatography (CCC), the technique that works with a support-free biphasic liquid system, is to retain the liquid stationary phase inside the CCC column (Sf parameter). Two solutions are commercially available: the hydrostatic CCC columns, also called centrifugal partition chromatographs (CPC), with disks of interconnected channels and rotary seals, and the hydrodynamic CCC columns with bobbins of coiled open tube and no rotary seals. It was demonstrated that the amount of liquid stationary phase retained by a coiled tube was higher with larger bore tubing than with small bore tubes. At constant column volume, small bore tubing will be longer producing more efficiency than larger bore tube that will better retain the liquid stationary phase. Since the resolution equation in CCC is depending on both column efficiency and stationary phase retention ratio, the influence of the tubing bore should be studied. This theoretical work showed that there is an optimum tubing bore size depending on solute partition coefficient and mobile phase flow rate. The interesting result of the theoretical study is that larger tubing bores allow for dramatically reduced experiment durations for all solutes: in reversed phase CCC (polar mobile phase), hydrophobic solutes are usually highly retained. These apolar solutes can be separated by the same coil at high flow rates and reduced Sf with similar retention times as polar solutes separated at smaller flow rates and much higher Sf.
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Dates et versions

hal-01164863 , version 1 (18-06-2015)

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Alain Berthod, Karine Faure. Revisiting resolution in hydrodynamic countercurrent chromatography: Tubing bore effect. Journal of Chromatography A, 2015, 1390, pp.71-77. ⟨10.1016/j.chroma.2015.02.053⟩. ⟨hal-01164863⟩
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