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Sensing the chirality of molecules is of great importance to fields such as enantioselective synthesis, pharmaceutical industry, and biomedicine. Plasmonic nanoparticles are ideal candidates for molecular sensing due to their inherent plasmonic properties that significantly enhance their sensitivity to surrounding molecules. Developing plasmonic nanoparticle‐molecule complexes for chirality sensing...
Chiral plasmonic nanoparticles (and their assemblies) interact with biomolecules in a variety of different ways, resulting in distinct optical signatures when probed by circular dichroism spectroscopy. These systems show promise for biosensing applications and offer several advantages over achiral plasmonic systems. Arguably the most notable advantage is that chiral nanoparticles can differentiate...