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3D-printed Magnetic Microfluidics for single cell study
Single-cell analysis gives important insights into heterogeneity among cells and will be beneficial to cancer research, regenerative medicine and pharmaceutical development. The fabrication of microvalves, with sub-micrometric resolution, will open new possibilities of managing single cells.
Keywords: Microfluidics, Microfabrication, Photolithography, Soft-lithography, Magnetic manipulation
- Fabrication of microfluidic networks
- Development of magnetic photoresist
- Design and fabrication of magnetic microvalves
- Wireless manipulation of magnetic microvalves
- Fabrication of microfluidic networks - Development of magnetic photoresist - Design and fabrication of magnetic microvalves - Wireless manipulation of magnetic microvalves
Simplifying fluid handling and single-cell studies by developing a microfluidic device that has magnetic microvalves that can be operated easily and wirelessly.
Simplifying fluid handling and single-cell studies by developing a microfluidic device that has magnetic microvalves that can be operated easily and wirelessly.