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The application of nanomaterials to detect disease biomarkers is giving rise to ultrasensitive assays, with scientists exploiting the many advantageous physical and chemical properties of nanomaterials. The fundamental basis of such work is to link unique phenomena that arise at the nanoscale to the presence of a specific analyte biomolecule, and to modulate the intensity of such phenomena in a ratiometric fashion, in direct proportion with analyte concentration. Precise engineering of nanomaterial surfaces is of utmost importance here, as the interface between the material and the biological environment is where the key interactions occur. In this tutorial review, we discuss the use of plasmonic nanomaterials in the development of biodiagnostic tools for the detection of a large variety of biomolecular analytes, and how their plasmonic properties give rise to tunable optical characteristics and surface enhanced Raman signals. We put particular focus on studies that have explored the efficacy of the systems using physiological samples in an effort to highlight the clinical potential of such assays.

Original publication




Journal article


Chem Soc Rev

Publication Date





3835 - 3853


Antibodies, Aptamers, Nucleotide, Biosensing Techniques, Colorimetry, DNA, Bacterial, Glucose, Gold, HIV Core Protein p24, Humans, Metal Nanoparticles, Molecular Diagnostic Techniques, Nanomedicine, Silver, Spectrum Analysis, Raman, Surface Plasmon Resonance, Surface Properties