Size selectivity in field-flow fractionation: Lift mode of retention with near-wall lift force

摘要

A simple theoretical model for the size selectivity, S _d, in the lift mode of retention in field-flow fractionation (FFF) is developed on the basis of the near-wall lift force expression. S _d is made up of two contributions: the flow contribution, S _(d,f), arising from the variation of the flow velocity at center of particle due to a change in particle position with particle size, and a slip contribution, S _(d,s), arising from the concomitant change in the extent of retardation due to the presence of a nearby channel wall. The slip contribution is minor, but not negligible, and amounts to 10-20% of the overall size selectivity. It contributes to reduce S _d in sedimentation FFF but to enhance it in flow FFF. S _d would steadily increase with particle size if the flow profile was linear (Couette flow). Because of the curvature of the flow profile encountered in the classical Poiseuille flow, S _d exhibits a maximum at some specific particle size. The model predicts a significant difference in S _d between sedimentation FFF and flow FFF, arising from the different functional dependences of the field force with particle size between these two methods. The predictions are in good agreement with the various S _d values reported in the literature in both sedimentation and flow FFF. On the basis of the model, guidelines are given for adjusting the operating parameters (carrier flow rate and field strength) to optimize the size selectivity. Finally, it is found that S _d generally decreases with decreasing channel thickness.