Project Details
Rapid and quantitative immunoassay for multiplexed and highly sensitive point-of-care diagnostics using rationally designed, self-assembled, SERS-active 3D superstructures
Applicant
Professor Dr. Sebastian Schlücker, since 6/2014
Subject Area
Analytical Chemistry
Term
from 2013 to 2018
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 233292184
Point-of-care diagnostics for personalized medicine requires rapid, quantitative, multiplexed and sensitive detection schemes. The current gold standard of immunoassays for protein detection is ELISA (enzyme-linked immuno-sorbent assay), which requires multiple time-consuming washing steps, signal amplification via the enzyme reaction and is restricted to one color with only limited sensitivity. The central aim of this proposal is to develop a novel platform for rapid and quantitative immunoassays for multiplexed and highly sensitive point-of-care diagnostics using surface-enhanced Raman scattering (SERS) nanotags/labels in combination with magnetic beads and microfluidics for capturing the target proteins and avoiding washing steps. 3D SERS-active glass-coated superstructures as novel SERS nanotags/labels will be synthesized via self-assembly of gold satellites on a gold nanorod core. The choice of optimal SERS-active 3D superstructures for use in assays will be guided by empirical structure-activity correlations in combination with computer simulations. Cytokines as a clinically relevant class of biomarkers will be used as a model system for establishing the SERS-based magnetic bead/microfluidic no-wash immunoassay in a portable configuration for point-of-care diagnostics. We aim at demonstrating the rapid and simultaneous detection of 5 different cytokines at femto- to attomolar concentrations. This analytical method is universally applicable to other target molecules by simply exchanging the corresponding ligands on the magnetic and SERS nanoparticles.
DFG Programme
Research Grants
Ehemalige Antragstellerin
Dr. Yuling Wang, until 6/2014