Add to ORKGWe present the rapid and sensitive detection of amplified DNA on a giant magneto-resistance sensor using superparamagnetic particles as a detection label. The one-step assay is performed on an integrated and miniaturized detection platform suitable for application into point-of-care devices. A double-tagged PCR amplification product of the LamB gene of the Escherichia coli bacterium was used to investigate binding kinetics of the assay. We applied magnetic actuation to concentrate the target-particle complexes at the sensor surface and to remove unbound particles from the sensor surface. We achieved biological dose-response curves detecting 4-250 pM amplicon concentrations in a one-step format in total assay times of less than 3 min. Using ...
This thesis describes several magnetic nanoparticle (MNP)-based biosensing strategies which take adv...
Bioassays relying on magnetic read-out using probe-tagged magnetic nanobeads are potential platforms...
Sensing biological agents at the genomic level, while enhancing the response time for biodetection o...
We present the rapid and sensitive detection of amplified DNA on a giant magneto-resistance sensor u...
International audienceThe detection of DNA molecules by agglutination assays has suffered from a lac...
Benefiting from their rapid readout, highly flexible devices and low-cost portable systems, optomagn...
The continued spread of antimicrobial resistance is a global problem. In fact, the WHO has declared ...
In this thesis, magnetic particle (MP) based sensing platform for oligonucleotide and PCR amplicon d...
We demonstrate a nanoparticle-based assay for the detection of bacteria causing urinary tract infect...
We demonstrate the real-time on-chip detection and manipulation of single 1 µm superparamagnetic par...
The combination of giant magnetoresistive sensors, magnetic labeling strategies, and biomolecule det...
We use functionalized iron oxide magnetic multi-core particles of 100\ua0nm in size (hydrodynamic pa...
We developed a novel 3D immunomagnetic flow assay for the rapid detection of pathogenic bacteria in ...
There is currently no widely available optimal assay for diagnosing patients with enteric fever. Her...
Isothermal amplification techniques are emerging nowadays for the rapid and accurate detection of pa...
This thesis describes several magnetic nanoparticle (MNP)-based biosensing strategies which take adv...
Bioassays relying on magnetic read-out using probe-tagged magnetic nanobeads are potential platforms...
Sensing biological agents at the genomic level, while enhancing the response time for biodetection o...
We present the rapid and sensitive detection of amplified DNA on a giant magneto-resistance sensor u...
International audienceThe detection of DNA molecules by agglutination assays has suffered from a lac...
Benefiting from their rapid readout, highly flexible devices and low-cost portable systems, optomagn...
The continued spread of antimicrobial resistance is a global problem. In fact, the WHO has declared ...
In this thesis, magnetic particle (MP) based sensing platform for oligonucleotide and PCR amplicon d...
We demonstrate a nanoparticle-based assay for the detection of bacteria causing urinary tract infect...
We demonstrate the real-time on-chip detection and manipulation of single 1 µm superparamagnetic par...
The combination of giant magnetoresistive sensors, magnetic labeling strategies, and biomolecule det...
We use functionalized iron oxide magnetic multi-core particles of 100\ua0nm in size (hydrodynamic pa...
We developed a novel 3D immunomagnetic flow assay for the rapid detection of pathogenic bacteria in ...
There is currently no widely available optimal assay for diagnosing patients with enteric fever. Her...
Isothermal amplification techniques are emerging nowadays for the rapid and accurate detection of pa...
This thesis describes several magnetic nanoparticle (MNP)-based biosensing strategies which take adv...
Bioassays relying on magnetic read-out using probe-tagged magnetic nanobeads are potential platforms...
Sensing biological agents at the genomic level, while enhancing the response time for biodetection o...