Add to ORKGAbstract: This paper presents a microsystem for biomolecular recognition (DNA, enzymes) based on a biochip, which uses magnetic field arraying of magnet-ically tagged biomolecules and high sensitivity sensors for single biomolecule detection. The microsystem pro-vides the electronic circuitry for addressing, reading out and sensing each of the 16 × 16 magnetoresistive sensors that compose the biochip. A prototype of the microsys-tem was developed and experimental results show that it is able of nanoparticle detection and, consequently, be used for magnetic labelled based bioassays
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Abstract – This paper presents the characterisation and modelling of a magnetic biosensor included o...
Abstract: This paper presents the modelling of a magnetic biosensor included on a hand held microsys...
Schotter J, Kamp P-B, Becker A, et al. A biochip based on magnetoresistive sensors. In: IEEE Transa...
In recent years, there has been rapidly growing interest in developing hand held, sensitive and cost...
Brzeska M, Panhorst M, Kamp P-B, et al. Detection and manipulation of biomolecules by magnetic carri...
icroelectronic chip-based systems are available for a wide variety of applications. Many of these sy...
Reiss G, Brückl H, Hütten A, et al. Magnetoresistive sensors and magnetic nanoparticles for biotechn...
We describe a multi-analyte biosensor that uses magnetic microbeads as labels to detect DNA hybridiz...
We are developing a biosensor that will measure, at the level of single molecules, the forces that b...
In this thesis, three different read-out techniques for biomolecular recognition have been studied. ...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Abstract – This paper presents the characterisation and modelling of a magnetic biosensor included o...
Abstract: This paper presents the modelling of a magnetic biosensor included on a hand held microsys...
Schotter J, Kamp P-B, Becker A, et al. A biochip based on magnetoresistive sensors. In: IEEE Transa...
In recent years, there has been rapidly growing interest in developing hand held, sensitive and cost...
Brzeska M, Panhorst M, Kamp P-B, et al. Detection and manipulation of biomolecules by magnetic carri...
icroelectronic chip-based systems are available for a wide variety of applications. Many of these sy...
Reiss G, Brückl H, Hütten A, et al. Magnetoresistive sensors and magnetic nanoparticles for biotechn...
We describe a multi-analyte biosensor that uses magnetic microbeads as labels to detect DNA hybridiz...
We are developing a biosensor that will measure, at the level of single molecules, the forces that b...
In this thesis, three different read-out techniques for biomolecular recognition have been studied. ...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...
Biosensors research combines molecular-level with system-level challenges. The molecular challenge i...