MicroTAS 2020 - 24th International Conference on Miniaturized Systems for Chemistry and Life Sciences 731-732 2020年
Here we propose an efficient approach to processing mammalian cells using microfluidic devices integrated with spongious PDMS matrices having continuous micropores. The micropores on the sponge surface created by dissolving sacrificial micropartic...
We herein propose a new hydrodynamic mechanism of particle separation using dual-depth, lattice-patterned asymmetric microchannel networks. This mechanism utilizes three-dimensional (3D) laminar flow profiles formed at intersections of lattice cha...
We herein propose a new hydrodynamic mechanism of particle separation using dual-depth, lattice-patterned asymmetric microchannel networks. This mechanism utilizes three-dimensional (3D) laminar flow profiles formed at intersections of lattice cha...
We herein propose a new hydrodynamic mechanism of particle separation using dual-depth, lattice-patterned asymmetric microchannel networks. This mechanism utilizes three-dimensional (3D) laminar flow profiles formed at intersections of lattice cha...