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Our goals are to study:

• the transport of biomolecules in nanochannels under both electrokinetic and magnetic forces;
• the transport of nanoparticles and DNA molecules in confined geometries and into human cells;
• the bulk and single cell electroporation in micro/nanofluidic devices.

Item (a) supports the Biosensors/Chips Testbed, (b) the Drug/Gene Delivery Testbed, (c) the Cell-based Devices and Constructs Testbed.

Related Research Briefs (.pdf) :

• Brownian Dynamics Simulation of DNA Conformational Trapping in a Micro-Mixing Flow
• Single DNA Dynamics in Micropillar Array
• Modeling of Electro-osmotic Flow and Particle Transport in Micro-/Nanonozzles
• Molecular Simulations in Nanochannels: Modeling the Nanofactory
• Multiscale Transport in Microfluidic and Nanofluidic Systems
• Experiment and Numerical Simulation of Gas-Liquid Flow in Microchannels
• High-Speed Confocal Micoscopy
• Instantaneous DNA Electrophoretic Mobility
• Issues in the Practical Design of a Biomolecule Separation Device Using Two-Phase Coating Flow