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Plasmonic chiral nanostructures have attracted a great deal of attention in chirality‐based biosensing, enantioselective separation, and recently photonic orbital angular momentum‐based quantum information processing. However, the intrinsic Ohmic losses of metals and significant radiative scattering of plasmonically resonant nanostructures result in small quality factors and hence weak optical chirality...
Determining the structural chirality of biomolecules is of vital importance in bioscience and biomedicine. Conventional methods for characterizing molecular chirality, e.g., circular dichroism (CD) spectroscopy, require high‐concentration specimens due to the weak electronic CD signals of biomolecules such as amino acids. Artificially designed chiral plasmonic metastructures exhibit strong intrinsic...
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