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 …

Dielectrophoresis, the induced motion of polarisable particles in a nonuniform electric field,
has been proven as a versatile mechanism to transport, accumulate, separate and …

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 …

In recent years, advancements in the fields of microfluidic and lab-on-a-chip technologies
have provided unique opportunities for the implementation of nanomaterial production …

Raman microscopy systems are becoming increasingly widespread and accessible for
characterising chemical species. Microfluidic systems are also progressively finding their …

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 …

Exploitation of the intrinsic electrical properties of particles has recently emerged as an
appealing approach for trapping and separating various scaled particles. Initiative particle …

With the rapid development of analytical techniques, it has become much easier to detect
chemical and biological analytes, even at very low detection limits. In recent years …

We propose a method to experimentally determine the Clausius–Mossotti factors and
surface capacitances of colloidal particles. This two-step method is based on the following:(i) …

This paper presents a nano-orifice based microfluidic device using a direct current
dielectrophoresis (DC-DEP) method to continuously separate different types of micro and …