The article describes preparation, characterization and further modification of hybrid magnetic particles (Au nanoshells with a magnetic core (MPs@silica@Au)) by zwitterionic molecules bearing diazonium functional groups. Such hybrid magnetic particles modified by zwitterionic molecules exhibit the following features: •Responsiveness towards external magnetic field applicable for various enrichment strategies due to magnetic core;•Golden outer layer exhibiting free surface plasmons could be used for grafting of zwitterionic molecules via diazonium functionality;•Zwitterionic interface on such particles provides resistivity towards non-specific protein binding; and at the same time such interface was applied for immobilization of antibodies against prostate specific antigen (PSA) applied for selective enrichment of PSA from serum samples with subsequent electrochemical assays. The approach presented here using hybrid magnetic particles can be easily applied for immobilization of antibodies using a highly robust surface patterning protocols i.e. by formation of a self-assembled monolayer with delivery of functional groups on the outer surface of magnetic particles. Hybrid magnetic particles with immobilized antibodies are applied for highly efficient and quick separation of protein of interest i.e. PSA from complex sample. Finally, hybrid magnetic particles with "fished-out" protein molecules could be incubated with lectins to form a sandwich configuration for glycoprofiling of PSA.
Keywords: Au nanoshells with a magnetic core; Electrochemistry; Fourier transform infrared spectroscopy; Nuclear magnetic resonance; The article contains description of synthesis of hybrid magnetic particles and their characterization using a battery of instrumental techniques; Transmission electron microscopy; X-ray diffraction; X-ray photoelectron spectroscopy.
© 2019 The Author(s).