This article presents a method for developing elastic nanoarchitected metamaterials with tunable optical responses.

Researchers from ICMAB are revolutionizing how we manipulate light at the nanoscale using chiral plasmonic structures—nanomaterials designed to interact with polarized light in extraordinary ways.

Chiral gold nanostars show how molecular asymmetry transfers to high-symmetry nanoparticles, producing structures with distinctive optical behavior and enhanced molecular detection. (Nanowerk ...

Cost-effective chiral nanostructures enable precise light control at the nanoscale, advancing applications in sensing, imaging, and emerging quantum technologies. (Nanowerk News) Researchers from ...

A research team including Nicholas Kotov, a University of Michigan chemical engineering professor, was selected earlier this month for a European Research Council synergy grant of $10 million to ...

Researchers at Cornell University have developed a method to convert symmetric semiconductor particles into chiral materials—intricately twisted structures that produce films with enhanced ...

Scanning electron microscopy (SEM) image of an array formed by 45 nm colloidal Au nanoparticles self-assembled into chiral motifs, in this case triskelions, fabricated using a template-assisted ...