The demand for easy to use and cost effective medical technologies inspires scientists to
develop innovative lab-on-chip technologies for point-of-care in vitro diagnostic testing. To …

Superparamagnetic nanoparticles are attracting significant attention. Therefore, being
explored in microsystems for a wide range of applications. Typical examples include lab‐on …

The field of micro total analysis systems (μTAS)(1) or lab on a chip (LOC) has extended its
usefulness into many new fields and disciplines spanning basic research to commercial …

We introduce a new format for particle-based immunoassays relying on digital microfluidics
(DMF) and magnetic forces to separate and resuspend antibody-coated paramagnetic …

The ability to continuously control microparticle position tightly in a confined microchannel is
remarkably useful for a wide range of biomedical studies.[1–3] In order to achieve particle …

A general strategy for controlling particle movement across streams would enable new
capabilities in single‐cell analysis, solid‐phase reaction control, and biophysics research …

A highly sensitive surface plasmon resonance (SPR) biosensor employing magnetic
nanoparticle (MNP) assays is presented. In the reported approach, MNPs simultaneously …

Magnetic particles can combine two very selective processes in bioanalysis: the specific
binding of analytes to the particle surface based on molecular recognition and the specific …

Fluid inertia has been used to position microparticles in confined channels because it leads
to precise and predictable particle migration across streamlines in a high-throughput …

The last decade has witnessed tremendous advances in employing microfluidic solutions
enabling Continuous Processing and Monitoring of Biological Samples (CPMBS), which is …