Several biomedical analyses are performed on particular types of cells present in body
samples or using functionalized microparticles. Success in such analyses depends on the …

Multiphysics microfluidics, which combines multiple functional physical processes in a
microfluidics platform, is an emerging research area that has attracted increasing interest for …

When certain polymers are heat-treated beyond their degradation temperature in the
absence of oxygen, they pass through a semi-solid phase, followed by the loss of …

Manipulation of microscale bioparticles including living cells is of great significance to the
broad bioengineering and biotechnology fields. Dielectrophoresis (DEP), which is defined …

This study introduces a new generation of dielectrophoretic-based microfluidic device for the
precise separation of multiple particle/cell types. The device features two sets of 3D …

Microfluidic device embedding electrodes realizes cell manipulation with the help of
dielectrophoresis. Cell manipulation is an important technology for cell sorting and cell …

Dielectrophoretically driven microfluidic devices have demonstrated great applicability in
biomedical engineering, diagnostic medicine, and biological research. One of the potential …

A laboratory blood test is vital for assessing a patient's health and disease status. Advances
in microfluidic technology have opened the door for on-chip blood analysis. Currently …

As an efficient, rapid and label-free micro-/nanoparticle separation technique,
dielectrophoresis (DEP) has attracted widespread attention in recent years, especially in the …

Removing nonviable cells from a cell suspension is crucial in biotechnology and
biomanufacturing. Label-free microfluidic cell separation devices based on …