Label-free isolation of exosomes using microfluidic technologies
Exosomes are cell-derived structures packaged with lipids, proteins, and nucleic acids. They
exist in diverse bodily fluids and are involved in physiological and pathological processes …
exist in diverse bodily fluids and are involved in physiological and pathological processes …
A review of cyclic olefin copolymer applications in microfluidics and microdevices
Cyclic olefin copolymers (COC) are amorphous, transparent thermoplastics composed of
cyclic olefin monomers (norbornene) and linear olefins (ethene). They are increasingly …
cyclic olefin monomers (norbornene) and linear olefins (ethene). They are increasingly …
A review of active and passive hybrid systems based on Dielectrophoresis for the manipulation of microparticles
Particle separation is essential in a broad range of systems and has several biological
applications. Microfluidics has emerged as a potentially transformational method for particle …
applications. Microfluidics has emerged as a potentially transformational method for particle …
Signal-based methods in dielectrophoresis for cell and particle separation
Separation and detection of cells and particles in a suspension are essential for various
applications, including biomedical investigations and clinical diagnostics. Microfluidics …
applications, including biomedical investigations and clinical diagnostics. Microfluidics …
Biomedical applications of magnetic levitation
Magnetic levitation (MagLev) is a user‐friendly, electricity‐free, accurate, affordable, and
label‐free platform for chemical and biological applications owing to its ability to suspend …
label‐free platform for chemical and biological applications owing to its ability to suspend …
Continuous CTC separation through a DEP‐based contraction–expansion inertial microfluidic channel
The efficient isolation of viable and intact circulating tumor cells (CTCs) from blood is critical
for the genetic analysis of cancer cells, prediction of cancer progression, development of …
for the genetic analysis of cancer cells, prediction of cancer progression, development of …
Dielectrophoretic separation of blood cells
Microfluidic dielectrophoretic (DEP) devices enable the label-free separation and isolation of
cells based on differences in their electrophysiological properties. The technique can serve …
cells based on differences in their electrophysiological properties. The technique can serve …
Semi-continuous dielectrophoretic separation at high throughput using printed circuit boards
Particle separation is an essential part of many processes. One mechanism to separate
particles according to size, shape, or material properties is dielectrophoresis (DEP). DEP …
particles according to size, shape, or material properties is dielectrophoresis (DEP). DEP …
Tunable particle/cell separation across aqueous two-phase system interface by electric pulse in microfluidics
Hypothesis Separations of particles and cells are indispensable in many microfluidic
systems and have numerous applications in chemistry and biomedicine. The interface of …
systems and have numerous applications in chemistry and biomedicine. The interface of …
Field-flow fractionation in molecular biology and biotechnology
Field-flow fractionation (FFF) is a family of single-phase separative techniques exploited to
gently separate and characterize nano-and microsystems in suspension. These techniques …
gently separate and characterize nano-and microsystems in suspension. These techniques …