The spatial arrangement of plasmonic nanoparticles can dramatically affect their interaction
with electromagnetic waves, which offers an effective approach to systematically control their …

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

Harnessing the programmable nature of DNA origami for controlling structural features in
crystalline materials affords opportunities to bring crystal engineering to a remarkable level …

Studies of nanoscale superconducting structures have revealed various physical
phenomena and led to the development of a wide range of applications. Most of these …

Optical metamaterials consist of artificially engineered structures exhibiting unprecedented
optical properties beyond natural materials. Optical metamaterials offer many novel …

In the past few decades, the field of DNA origami-based micro/nanotechnology has
developed dramatically and spawned attention increasingly, as its high integrality, rigid …

The exploitation of strong light–matter interactions in chiral plasmonic nanocavities may
enable exceptional physical phenomena and lead to potential applications in …

The development of the DNA origami technique has revolutionized the field of DNA
nanotechnology as it allows to create virtually any arbitrarily shaped nanostructure out of …

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 …

The scaling down of meta‐atoms or metamolecules (collectively denoted as metaunits) is a
long‐lasting issue from the time when the concept of metamaterials was first suggested …