Litcius/Paper detail

Low‐cost, high‐throughput and rapid‐prototyped 3D‐integrated dielectrophoretic channels for continuous cell enrichment and separation

Shabnam A. Faraghat, Henry O. Fatoyinbo, Kai F. Hoettges, Michael Hughes

2022Electrophoresis14 citationsDOIOpen Access PDF

Abstract

Microfluidic devices for dielectrophoretic cell separation are typically designed and constructed using microfabrication methods in a clean room, requiring time and expense. In this paper, we describe a novel alternative approach to microfluidic device manufacture, using chips cut from conductor-insulator laminates using a cutter plotter. This allows the manufacture of microchannel devices with micron-scale electrodes along every wall. Fabrication uses a conventional desktop cutter plotter, and requires no chemicals, masks or clean-room access; functional fluidic devices can be designed and constructed within a couple of hours at negligible cost. As an example, we demonstrate the construction of a continuous dielectrophoretic cell separator capable of enriching yeast cells to 80% purity at 10 000 cells/s.

Topics & Concepts

MicrofluidicsPlotterMicrofabricationMicrochannelFabricationMaterials scienceFluidicsSeparator (oil production)NanotechnologyComputer scienceComputer hardwareElectrical engineeringEngineeringComputer graphics (images)Alternative medicinePathologyThermodynamicsPhysicsMedicineMicrofluidic and Bio-sensing TechnologiesMicrofluidic and Capillary Electrophoresis ApplicationsElectrowetting and Microfluidic Technologies
Low‐cost, high‐throughput and rapid‐prototyped 3D‐integrated dielectrophoretic channels for continuous cell enrichment and separation | Litcius