Epithelial–mesenchymal transitions (EMTs) generate hybrid phenotypes with an enhanced
ability to adapt to diverse microenvironments encountered during the metastatic spread …

Electromanipulation and electrical characterization of cancerous cells is becoming a topic of
high interest as the results reported to date demonstrate a good differentiation among …

Electrokinetically driven insulator‐based microfluidic devices represent an attractive option
to manipulate particle suspensions. These devices can filtrate, concentrate, separate, or …

Single cell multimodal analysis is at the frontier of single cell research: it defines the roles
and functions of distinct cell types through simultaneous analysis to provide unprecedented …

The recent advancement of dielectrophoresis (DEP)-enabled microfluidic platforms is
opening new opportunities for potential use in cancer disease diagnostics. DEP is …

This review article presents an overview of the evolution of the field of insulator-based
dielectrophoresis (iDEP); in particular, it focuses on insulator-based electrokinetic (iEK) …

Insulator based dielectrophoresis (iDEP) is becoming increasingly important in emerging
biomolecular applications, including particle purification, fractionation, and separation …

A method of concentrating and separating small particles with a specific size in a microfluidic
system can be applied to obtain high-purity biological samples, such as viruses, bacteria …

Insulator‐based dielectrophoresis (iDEP) is the electrokinetic migration of polarized particles
when subjected to a non‐uniform electric field generated by the inclusion of insulating …

We propose a simple, inexpensive microfluidic chip for large-scale trapping of single
particles and cells based on induced-charge electroosmosis in a rotating electric field (ROT …