Particles ranging in size from a few nanometers (exosomes or viruses) to a few micrometers (bacteria or red blood cells) can be sorted using a size-based separation process. One of the simplest techniques is provided by hydrodynamic chromatography (HDC) which typically requires long channels to achieve adequate resolution. A new separation mechanism based on a Brownian sieving effect coupled with HDC has recently been proposed to overcome these limitations. An efficiency improvement of up to 2000 % has been predicted for a two-size mixture. The aim of this work is to study and optimize a modified geometry useful for obtaining the simultaneous separation of a three-size diluted suspension. The results suggest a significant performance improvement, up to 3000 %, over the standard HDC.
Fractionation of a three-particle mixture by Brownian sieving hydrodynamic chromatography / Biagioni, V; Venditti, C; Adrover, A; Cerbelli, S. - In: CHEMICAL ENGINEERING & TECHNOLOGY. - ISSN 0930-7516. - (2023). [10.1002/ceat.202200490]
Fractionation of a three-particle mixture by Brownian sieving hydrodynamic chromatography
Biagioni, V;Venditti, C;Adrover, A
;Cerbelli, S
2023
Abstract
Particles ranging in size from a few nanometers (exosomes or viruses) to a few micrometers (bacteria or red blood cells) can be sorted using a size-based separation process. One of the simplest techniques is provided by hydrodynamic chromatography (HDC) which typically requires long channels to achieve adequate resolution. A new separation mechanism based on a Brownian sieving effect coupled with HDC has recently been proposed to overcome these limitations. An efficiency improvement of up to 2000 % has been predicted for a two-size mixture. The aim of this work is to study and optimize a modified geometry useful for obtaining the simultaneous separation of a three-size diluted suspension. The results suggest a significant performance improvement, up to 3000 %, over the standard HDC.| File | Dimensione | Formato | |
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