Engineering nanostructures with exceptionally high-Q resonances mediated by the Fano-
type hybridization between discrete states associated with the periodicity of the structure and …

Biosensors have been designed and developed for detecting biomarkers, biomolecules,
proteins, enzymes, organisms, and various types of bacterial and viral diseases since the …

Bound states in the continuum (BICs) offer novel mechanisms to boost the quality factor (Q‐
factor) of resonances. Unfortunately, current studies on chiral BICs metasurfaces suffer from …

Chiral plasmonics is a fascinating research field that is attractive to scientists from diverse
backgrounds. Physicists study light–matter interactions, chemists seek ways to analyze …

Vibrational optical activity (VOA) consisting of infrared vibrational circular dichroism (VCD)
and vibrational Raman optical activity (ROA) was predicted, discovered, and confirmed …

Chirality (C) is a fundamental property of objects, in terms of symmetry. It is extremely
important to sense and distinguish chiral molecules in the fields of biochemistry, science …

While infrared spectroscopy is a powerful technique that provides molecular information
such as chemical constituents and chemical structures of analytes, it suffers from low …

Planar chiral metasurfaces have emerged as a versatile platform for manipulating chiral light‐
matter interactions in diverse applications. However, it remains challenging to achieve high …

Lattice resonances are collective electromagnetic modes supported by periodic arrays of
metallic nanostructures. These excitations arise from the coherent multiple scattering …

There is increasing interest in the study of chiral degrees of freedom occurring in matter and
in electromagnetic fields. Opportunities in quantum sciences will likely exploit two main …