Hydrodynamic focusing of conducting fluids for conductivity-based biosensors. uri icon

abstract

  • Hydrodynamic focusing of a conducting fluid by a non-conducting fluid to form a constricted current path between two sensing electrodes is implemented in order to enhance the sensitivity of a 4-electrode conductance-based biosensor. The sensor has a simple two-inlet T-junction design and performs four-point conductivity measurements to detect particles immobilized between the sensing electrode pair. Computational simulations conducted in conjunction with experimental flow studies using confocal microscopy show that a flat profile for the focused layer is dependent on the Reynolds number for the chosen flow parameters. The results also indicate that a flat focused layer is desirable for both increased sensitivity as well as surface-binding efficiency. Proof of concept for conductance measurements in a hydrodynamically focused conducting fluid was demonstrated with entrapped magnetic beads.

published proceedings

  • Biosens Bioelectron

author list (cited authors)

  • Nasir, M., Ateya, D. A., Burk, D., Golden, J. P., & Ligler, F. S.

complete list of authors

  • Nasir, Mansoor||Ateya, Daniel A||Burk, Diana||Golden, Joel P||Ligler, Frances S