Ramos Reyes, AntonioRobles, A.García Sánchez, PabloFreire Rosales, Manuel José2025-06-092025-06-092009Ramos Reyes, A., Robles, A., García Sánchez, P. y Freire Rosales, M.J. (2009). Microwave-induced Water Flows in Microsystems. Applied Physics Letters, 94 (2). https://doi.org/10.1063/1.3070521.024104https://hdl.handle.net/11441/174114Alternating current electric fields are of increasing importance for the development of microfluidic pumps. We report how microwave fields can induce water flow in microsystems, irrespective of saline concentration. A drop of water is placed on two parallel coplanar microelectrodes that are energized by a microwave generator. Fluid flow is observed and the fluid velocity is about the same for two electrolytes with very different saline concentrations. Electrically induced gradients of temperature produce spatial variations in mass density and dielectric permittivity leading, respectively, to buoyancy and dielectric forces in the liquid. The observed fluid flow patterns demonstrate that both effects are taking place at different length scales: the dielectric forces dominate at lengths of the order of 100 μm or smaller, while buoyancy dominates around 1 mm.application/pdf3 p.engDielectric propertiesElectric currentsThermodynamic states and processesCalibration methodsMicrowave frequenciesElectrolytesElectroosmosisLab-on-a-chipNavier Stokes equationsMicroelectrode arraysinfo:eu-repo/semantics/articleinfo:eu-repo/semantics/openAccesshttps://doi.org/10.1063/1.3070521