Temperature field in a planar microreactor driven by a thin film heater/sensor for applications in genetic amplification.
Finite element analysis (FEA) has been my everyday tool to model multiphysics problems in microsystems, in domains such as structural mechanics, heat transfer, magnetism, electrostatics and electrodynamics. Also explored simulation of diffusion and capillary fluid transport. This analysis led to devices that performed within specifications from the first iteration, demonstrating the predictive value of the simulation.
Finite element analysis (FEA) has been my everyday tool to model multiphysics problems in microsystems, in domains such as structural mechanics, heat transfer, magnetism, electrostatics and electrodynamics. Also explored simulation of diffusion and capillary fluid transport. This analysis led to devices that performed within specifications from the first iteration, demonstrating the predictive value of the simulation.
Simulated and fabricated thermal system of a USB-powered Lab-On-Chip platform for genetic analysis.