Add to ORKGMonodisperse magnetic nanoparticles (NPs) could enable the ultra-sensitive magnetic detection of biological analytes. However, rendering these particles biocompatible has remained a challenge. We report the bio-functionalization and detection of 12-nm manganese ferrite NPs. We have achieved the site-specific binding of biotin-functionalized NPs onto avidin-patterned silicon oxide substrates and DNA-functionalized NPs onto complementary DNA-patterned silicon oxide substrates. Utilizing scanning SQUID microscopy, we show that these substrate-bound NPs retain their magnetic properties. Finally, we demonstrate a novel method of detecting either protein binding or DNA hybridization at room temperature using the NPs and a magnetic tunnel-junction...
Magnetic nanoparticles are tiny magnets of the size of large molecules. These nanoparticles can be ...
International audienceThe detection of DNA molecules by agglutination assays has suffered from a lac...
In recent years, nanoparticle formulations utilizing magnetic materials have started gaining more co...
Magnetic particles are widely used as signal labels in a variety of biological sensing applications,...
Magnetic-based biosensors are attractive for on-site detection of biomarkers due to the low magnetic...
An attractive approach: Biogenic magnetic nanoparticles, so‐called magnetosomes, containing a magnet...
We developed nanoparticles with tailored magnetic properties for direct and sensitive detection of b...
Successful development of ultra-sensitive molecular imaging nanoprobes for the detection of targeted...
In this work, we investigate the feasibility of detecting quantitatively DNA molecules utilizing the...
Rapid and accurate measurements of protein biomarkers, pathogens and cells in biological samples cou...
Recent discoveries in nanoscience are predicted to potentially revolutionize future technologies in ...
Minhong Jeun,1 Sungwook Park,1,2 Hakho Lee,3 Kwan Hyi Lee1,2 1Center for Biomaterials, Biomedical R...
The synthesis of multifunctional magnetic nanoparticles (NPs) is a highly active area of current res...
The development of novel methods of probing biological interactions is critical to the advancement o...
This thesis describes several magnetic nanoparticle (MNP)-based biosensing strategies which take adv...
Magnetic nanoparticles are tiny magnets of the size of large molecules. These nanoparticles can be ...
International audienceThe detection of DNA molecules by agglutination assays has suffered from a lac...
In recent years, nanoparticle formulations utilizing magnetic materials have started gaining more co...
Magnetic particles are widely used as signal labels in a variety of biological sensing applications,...
Magnetic-based biosensors are attractive for on-site detection of biomarkers due to the low magnetic...
An attractive approach: Biogenic magnetic nanoparticles, so‐called magnetosomes, containing a magnet...
We developed nanoparticles with tailored magnetic properties for direct and sensitive detection of b...
Successful development of ultra-sensitive molecular imaging nanoprobes for the detection of targeted...
In this work, we investigate the feasibility of detecting quantitatively DNA molecules utilizing the...
Rapid and accurate measurements of protein biomarkers, pathogens and cells in biological samples cou...
Recent discoveries in nanoscience are predicted to potentially revolutionize future technologies in ...
Minhong Jeun,1 Sungwook Park,1,2 Hakho Lee,3 Kwan Hyi Lee1,2 1Center for Biomaterials, Biomedical R...
The synthesis of multifunctional magnetic nanoparticles (NPs) is a highly active area of current res...
The development of novel methods of probing biological interactions is critical to the advancement o...
This thesis describes several magnetic nanoparticle (MNP)-based biosensing strategies which take adv...
Magnetic nanoparticles are tiny magnets of the size of large molecules. These nanoparticles can be ...
International audienceThe detection of DNA molecules by agglutination assays has suffered from a lac...
In recent years, nanoparticle formulations utilizing magnetic materials have started gaining more co...