Magnetic field sensors are an integral part of many industrial and biomedical applications,
and their utilization continues to grow at a high rate. The development is driven both by new …

In the past few years, magnetoelectronics has emerged as a promising new platform
technology in various biosensors for detection, identification, localisation and manipulation …

Magnetic beads with functionalized surfaces are widely used as molecule carriers or labels
for single molecule studies,[1] cell manipulation,[2] and biomagnetic sensing.[3] For this …

Immunoassay based on the detection of magnetic nanoparticles (MNPs) has drawn great
attention in the point-of-care testing (POCT) fields. Benefiting from the unique magnetic …

We report a procedure to grow thermo-responsive polymer shells at the surface of magnetic
nanocarriers made of multiple iron oxide superparamagnetic nanoparticles embedded in …

The ability to trap, manipulate and release single cells on a surface is important both for
fundamental studies of cellular processes and for the development of novel lab-on-chip …

In recent years there have been tremendous advances in the versatility of magnetic shuttle
technology using nano/micro-scale magnets for digital magnetophoresis. While the …

Remote and precise manipulation of magnetic particles is required to meet the demands for
high-throughput and location-specific analysis in lab-on-chip applications. In the last decade …

Micro-magnets producing magnetic field gradients as high as 106 T m− 1 have been used to
efficiently trap nanoparticles with a magnetic core of just 12 nm in diameter. Particle capture …

Plasmonic nanopores are extensively investigated as single molecules detectors. The main
limitations in plasmonic nanopore technology are the too fast translocation velocity of the …