Bibtex entry:
@inproceedings{Eurosensors04:Don, key ={Eurosensors04:Don}, title={Investigation on the Electrohydrodynamic Forces in a Lab-on-a-Chip}, author={D.Donato and A.Leonardi and M.Rudan}, journal={Eurosensors}, number={18}, month={September}, pages={576-577}, year={2004}, keywords={Lab-on-a-Chip Dielectrophoresis Electrohydrodynamic Modelling}, abstract={A model for describing parasitic phenomena in Lab-on-a-Chip, based on AC dielectrophoresis, is proposed. Parasitic phenomena are generated by gradients in conduc- tivity and permittivity that, coupled with high-strength AC electric fields, give rise to electrothermal forces, while gradients in mass density give rise to buoyancy forces. The resulting electrothermal forces cause a fluid flow motion that is calculated by analytical approximations that compare favorably with numerical solutions.}, }
Bibtex entry:
@inproceedings{Eurosensors04:Don, key ={Eurosensors04:Don}, title={Investigation on the Electrohydrodynamic Forces in a Lab-on-a-Chip}, author={D.Donato and A.Leonardi and M.Rudan}, journal={Eurosensors}, number={18}, month={September}, pages={576-577}, year={2004}, keywords={Lab-on-a-Chip Dielectrophoresis Electrohydrodynamic Modelling}, abstract={A model for describing parasitic phenomena in Lab-on-a-Chip, based on AC dielectrophoresis, is proposed. Parasitic phenomena are generated by gradients in conduc- tivity and permittivity that, coupled with high-strength AC electric fields, give rise to electrothermal forces, while gradients in mass density give rise to buoyancy forces. The resulting electrothermal forces cause a fluid flow motion that is calculated by analytical approximations that compare favorably with numerical solutions.}, }
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