. "Nanocon 2009 Conference Proceedings" . "The paper gives a short overview of the authors' recent research activities at the intersection of microfluidics, electrokinetics and self-assembly. The particular research introduced in the paper aims at developing an electric-field-assisted self-assembly procedure for meso- and micro- (and possibly nano-) scale systems. The goal is to steer tiny particles such as LED chips, thick film resistors or microbeads submerged in a shallow liquid pool around by controlling electric voltage applied to an electrode array at the bottom of the pool. Dielectrophoresis as the major tool is introduced first, a brief report on numerical simulations using a commercially available FEM solver is then given, design and fabrication of the microfluidic chamber featuring microelectrode array is described in some detail, and finally laboratory experiments are presented. As an outcome of the experiments, a series of videos demonstrating various responses of particles were captured." . "RIV/68407700:21230/09:00159786" . "978-80-87294-13-0" . "Noncontact Parallel Manipulation with Meso- and Microscale Particles Using Dielectrophoresis" . "2"^^ . "Noncontact Parallel Manipulation with Meso- and Microscale Particles Using Dielectrophoresis"@en . . . "[88155BBDD8CA]" . "2009-10-20+02:00"^^ . "21230" . "Noncontact Parallel Manipulation with Meso- and Microscale Particles Using Dielectrophoresis"@en . "Dielectrophoresis; Self-assembly; Mesoscale"@en . "2"^^ . "TANGER, spol.s r.o" . "000277025600042" . . . . . "Noncontact Parallel Manipulation with Meso- and Microscale Particles Using Dielectrophoresis" . . . "Zem\u00E1nek, Ji\u0159\u00ED" . . . . "9"^^ . . "329673" . . "RIV/68407700:21230/09:00159786!RIV11-MSM-21230___" . . "Ostrava" . . "Ro\u017Enov pod Radho\u0161t\u011Bm" . "P(1M0567)" . "Hur\u00E1k, Zden\u011Bk" . . "The paper gives a short overview of the authors' recent research activities at the intersection of microfluidics, electrokinetics and self-assembly. The particular research introduced in the paper aims at developing an electric-field-assisted self-assembly procedure for meso- and micro- (and possibly nano-) scale systems. The goal is to steer tiny particles such as LED chips, thick film resistors or microbeads submerged in a shallow liquid pool around by controlling electric voltage applied to an electrode array at the bottom of the pool. Dielectrophoresis as the major tool is introduced first, a brief report on numerical simulations using a commercially available FEM solver is then given, design and fabrication of the microfluidic chamber featuring microelectrode array is described in some detail, and finally laboratory experiments are presented. As an outcome of the experiments, a series of videos demonstrating various responses of particles were captured."@en .