Trapping Biological Species in a Lab-on-Chip Microsystem: Micro Inductor Optimization Design and SU8 ProcessReport as inadecuate




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1 LAAS-N2IS - Équipe Nano Ingénierie et Intégration des Systèmes LAAS - Laboratoire d-analyse et d-architecture des systèmes Toulouse 2 LAAS-TEAM - Service Techniques et Équipements Appliqués à la Microélectronique LAAS - Laboratoire d-analyse et d-architecture des systèmes Toulouse

Abstract : Micro-spiral inductor dedicated to microbeads manipulation in a fluidic channel had been optimized by analytical modelling correlated to multi physics fem numerical Maxwell®3D L software. Main advantage of the analytical model described below is time analysis calculus decrease of and the capability offered to optimize geometrical and electrical parameters of the inductor. First experimental results show a good correlation between simulation and realized integrating micro-devices in a fluidic channel.

Keywords : Magnetic actuators magnetic bead separation force Magnetic field Analytical model Finite element method





Author: Christophe Escriba - Rémy Fulcrand - Philippe Artillan - David Jugieu - Aurélien Bancaud - Ali Boukabache - Anne-Marie Gué - J

Source: https://hal.archives-ouvertes.fr/



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