A microfluidic magnetohydrodynamic pump based on a thermally bonded composite of glass and dry film photoresist

“…The droplet motion is guided by so-called fluidic barriers with integrated backflow channels supporting the dynamic switching mechanism. The fluid walls are made of dry film resist (DFR, Ordyl SY300) with a thickness of 100 μm as previously utilized elsewhere in a comparable manner for microfluidic applications [ 27 , 28 ]. The fluidic device and the complementary substrate, which may contain, e.g., components for analysis, are assembled in a crossed configuration to ensure that all connections are conveniently accessible ( Figure 1 b).…”

Droplet Motion Driven by Liquid Dielectrophoresis in the Low-Frequency Range

“…The droplet motion is guided by so-called fluidic barriers with integrated backflow channels supporting the dynamic switching mechanism. The fluid walls are made of dry film resist (DFR, Ordyl SY300) with a thickness of 100 μm as previously utilized elsewhere in a comparable manner for microfluidic applications [ 27 , 28 ]. The fluidic device and the complementary substrate, which may contain, e.g., components for analysis, are assembled in a crossed configuration to ensure that all connections are conveniently accessible ( Figure 1 b).…”

Droplet Motion Driven by Liquid Dielectrophoresis in the Low-Frequency Range