Litcius/Paper detail

Microparticle transport along a planar electrode array using moving dielectrophoresis

Mohammad Asif Zaman, Punnag Padhy, Wei Ren, Mo Wu, Lambertus Hesselink

2021Journal of Applied Physics19 citationsDOIOpen Access PDF

Abstract

We present a device that can achieve controlled transport of colloidal microparticles using an array of micro-electrodes. By exciting the micro-electrodes in regular sequence with an AC voltage, a time-varying moving dielectrophoretic force-field is created. This force propels colloidal microparticles along the electrode array. Using this method, we demonstrate bidirectional transport of polystyrene micro-spheres. Electromagnetic simulation of the device is performed, and the dielectrophoretic force profile around the electrode array is mapped. We develop a Brownian dynamics model of the trajectory of a particle under the influence of the time-varying force-field. Numerical and experimental results showing controlled particle transport are presented. The numerical model is found to be in good agreement with experimental data. The developed numerical framework can be useful in designing and modeling lab-on-a-chip devices that employ external non-contact forces for micro-/nanoparticle manipulation.

Topics & Concepts

DielectrophoresisElectrodeMaterials scienceParticle (ecology)VoltageBrownian dynamicsNanotechnologyElectrode arrayPlanarElectrokinetic phenomenaMicroparticleBrownian motionMicrofluidicsPhysicsOpticsComputer scienceElectrical engineeringEngineeringQuantum mechanicsComputer graphics (images)OceanographyGeologyMicrofluidic and Bio-sensing TechnologiesElectrostatics and Colloid InteractionsElectrowetting and Microfluidic Technologies