Samenvatting
We investigate a fast and sensitive optomagnetic bionanotechnology for biomarker detection. Antibody-coated superparamagnetic particles capture biomarker molecules and form clusters with a biomarker molecule sandwiched between two particles. These particle clusters can be analyzed using a rotating magnetic field which induces an oscillating light scattering cross-section, resolving sub-picomolar biomarker concentrations [Ranzoni et al, Nanoletters 2011; ACS Nano 2012].
In this paper we report a method to quantify the particle-particle distance with nanometer resolution. Simulations of the light scattering by rotating clusters show that the high-frequency components hold detailed information about the geometry of the particle clusters, including a strong dependence on the inter-particle distance. We will report the simulation results and experimental data of model cluster assays.
Originele taal-2 | Engels |
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Status | Gepubliceerd - 2013 |
Evenement | MicroNanoConference, Ede - De Reehorst, Ede, Nederland Duur: 11 dec. 2013 → 12 dec. 2013 |
Congres
Congres | MicroNanoConference, Ede |
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Land/Regio | Nederland |
Stad | Ede |
Periode | 11/12/13 → 12/12/13 |
Ander | MicroNanoConference |