Cell separation is a key step in many biomedical research areas including biotechnology,
cancer research, regenerative medicine, and drug discovery. While conventional cell sorting …

Dielectrophoresis (DEP) is the movement of a particle in a non‐uniform electric field due to
the interaction of the particle's dipole and spatial gradient of the electric field. DEP is a subtle …

Rapid, accurate, portable, and large-scale diagnostic technologies for the detection of
severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) are crucial for controlling …

Over the past decade, dielectrophoresis (DEP) has evolved into a powerful, robust and
flexible method for cellular characterization, manipulation, separation and cell patterning. It …

In recent years, dielectrophoretic force has been used to manipulate colloids, inert particles,
and biological microparticles, such as red blood cells, white blood cells, platelets, cancer …

Microfluidic separation technology has garnered significant attention over the past decade
where particles are being separated at a micro/nanoscale in a rapid, low-cost, and simple …

The development of lab-on-a-chip (LOC) devices over the past decade has attracted
growing interest. LOC devices aim to achieve the miniaturization, integration, automation …

This paper describes the fabrication and characterization of microelectrodes that are
inherently aligned with microfluidic channels and in direct contact with the fluid in the …

The complexity of biological analytes demands powerful analysis techniques in order to
reveal cellular processes and pathways on the molecular level. 1 Thus, ever refining …

DEP is an established technique for particle manipulation. Although first demonstrated in the
1950s, it was not until the development of miniaturization techniques in the 1990s that DEP …