Plasmonic gold nanoparticles have been used increasingly in solid-state systems because
of their applicability in fabricating novel sensors, heterogeneous catalysts, metamaterials …

The specificity and simplicity of the Watson–Crick base pair interactions make DNA one of
the most versatile construction materials for creating nanoscale structures and devices …

For many photonic applications, it is important to confine light of a specific wavelength at a
certain volume of interest at low losses. So far, it is only possible to use the polarized light …

Integrating nanoscale building blocks of low dimensionality (0D; ie, spheres) into higher
dimensional structures endows them and their corresponding materials with emergent …

The reliable programmability of DNA origami makes it an extremely attractive tool for bottom-
up self-assembly of complex nanostructures. Utilizing this property for the tuned …

Transient, dissipative, aggregation and deaggregation of Au nanoparticles (NPs) or
semiconductor quantum dots (QDs) leading to control over their transient optical properties …

Plasmonic polymers consisting of metallic nanoparticles (NPs) are able to squeeze light into
the deep-subwavelength space and transfer along a highly confined nanoscale path in long …

DNA nanotechnology is a unique field, where physics, chemistry, biology, mathematics,
engineering, and materials science can elegantly converge. Since the original proposal of …

We study the unconventional topological phases of polaritons inside a cavity waveguide,
demonstrating how strong light-matter coupling leads to a breakdown of the bulk-edge …

Noble metal nanoparticles can absorb incident light very efficiently due to their ability to
support localized surface plasmon resonances (LSPRs), collective oscillations of the free …