One-dimensional linear array of cylindrical posts for size-based deterministic separation of binary suspensions

TL;DR

This study demonstrates that a one-dimensional array of cylindrical posts can effectively separate binary suspensions by size, with sharp transition points enabling high-purity, efficient size-based particle separation.

Contribution

The paper introduces a novel size-based separation method using a slanted array of cylindrical posts, with detailed characterization and demonstration of high-purity binary mixture separation.

Findings

Particles smaller than the gaps permeate through the array.

Larger particles are deflected, enabling size-based separation.

High purity and efficiency achieved in binary mixture separation.

Abstract

We investigate the motion of suspended particles past a single line of equally spaced cylindrical posts that is slanted with respect to the driving force. We show that such a one-dimensional array of posts can fractionate particles according to their size, with small particles permeating through the line of posts but larger particles being deflected by the steric barrier created by the posts, even though the gaps between posts are larger than the particles. We perform characterization experiments driving monodisperse suspensions of particles of different size past the line of posts over the entire range of forcing orientations and present both the permeation probability through the individual gaps between the posts as well as the fraction of permeating particles through the one-dimensional array. In both cases, we observe a sharp transition from deflection to permeation mode that is a function of particle size, thus enabling separation. We then drive binary mixtures at selected orientations of the line of posts and demonstrate high purity and efficiency of separation.