Biosensors and Bioelectronics: X (Sep 2023)

Dynamic dielectrophoretic cell manipulation is enabled by an innovative electronics platform

  • Lourdes Albina Nirupa Julius,
  • Henrik Scheidt,
  • Gowri Krishnan,
  • Moritz Becker,
  • Omar Nassar,
  • Sarai M. Torres-Delgado,
  • Dario Mager,
  • Vlad Badilita,
  • Jan G. Korvink

Journal volume & issue
Vol. 14
p. 100333

Abstract

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We report on a portable dielectrophoresis manipulation platform, for the positioning and immobilization of small dielectric objects, such as cells or microbes, using a circular array of up to six symmetrically arranged and independently controllable micro-electrodes. The system’s micro-controller-instructed electronic drivers can be operated in three distinct modes. We demonstrate the system’s function by actuating bacterial cells to specific locations and orientations within a region of interest. Using a deep learning approach, we map voltage phase combinations of the six electrodes to geometrical trap position locations, thereby facilitating smooth trajectory planning.

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