The scientific effort to control the interaction between light and matter has grown
exponentially in the last 2 decades. This growth has been aided by the development of …

Chirality, a property of broken mirror symmetry, prevails in nature. Chiral molecules show
different biochemical behaviors to their mirror molecules. For left or right circularly polarized …

Chiral assemblies of plasmonic nanoparticles are known for strong circular dichroism but not
for high optical asymmetry, which is limited by the unfavorable combination of electrical and …

Circularly polarized light (CPL) exhibits an enantioselective interaction with chiral
molecules, providing a pathway toward all-optical chiral resolution. High index dielectric …

Chiro-sensitive molecular detection is highly relevant as many biochemical compounds, the
building blocks of life, are chiral. Optical chirality is conventionally detected through circular …

Conspectus Chirality in Nature can be found across all length scales, from the subatomic to
the galactic. At the molecular scale, the spatial dissymmetry in the atomic arrangements of …

Building blocks of life show well-defined chiral symmetry which has a direct influence on
their properties and role in Nature. Chiral molecules are typically characterized by optical …

Chiral-optical spectroscopies, such as circular dichroism, are critical in the biomedical,
pharmaceutical, and agrochemical industries for revealing structural information about …

Chirality plays an essential role in life, providing unique functionalities to a wide range of
biomolecules, chemicals, and drugs, which makes chiral sensing and analysis critically …

Benefited from the well-known Mie resonance, a plethora of physical phenomena and
applications are attracting attention in current research on dielectric-based nanophotonics …