Optimal separation times for electrical field flow fractionation with Couette flows

## Abstract Electrical field flow fractionation (EFFF) has two perpendicular driving forces that help to produce an optimal separation of solute in a mixture [Giddings, Science 1993; 260:1456–1465]. For Couette flow based devices, the ratio of the velocity of the capillary walls offers an extra par

## Abstract Electric field‐flow fractionation (EFFF) is a separation technique that couples a lateral electric field with axial Poiseuille flow to separate particles on the basis of size and/or mobility. In unidirectional EFFF, the field rapidly decreases in time due to charging of the double layer

## Abstract Numerical methods are employed to examine the resolution and optimization of a relatively new technique for charged species separation that is based on flow along nano‐scale channels having an electric double‐layer thickness comparable to the channel size. In such channels, the electric

A new general expression of the ratio of the void time to analyte retention time, which one calls the time-based retention ratio R , is given for t curved separation channels. It differs from the classical definition of the retention ratio, based on a velocity ratio, which does not account for the f

## Abstract On‐line, continuous chemiluminescence detection has been recently applied to gravitational field‐flow fractionation as a new method suitable for flow‐assisted assays based on the separation between the analyte in solution and the analyte bound to micrometer‐sized particles. In this work