(Image: CICBiomaGUNE Chiral templates, such as DNA, proteins, and supramolecular assemblies, can guide the growth and organization of nanostructures into chiral configurations. By utilizing the ...

Chiral plasmonic nanostructures are designed to have a lack of mirror symmetry, either in their shape or in their arrangement. This asymmetry allows them to distinguish between different polarizations ...

In the realm of nanostructures, chirality plays a crucial role in determining the optical and electronic properties of materials. Recent research has focused on how chiral nanostructures can be ...

"In this work, we have shown that chiral topological textures can be stabilized by shaping nanostructures in an appropriate way," says Dubourdieu. The ability to create and electrically manipulate ...

The key feature of chiral optical nanostructures, such as metasurfaces, is their remarkably different response to the left and right circular polarizations of light. Assoc Prof Wu’s team has ...

“In this work, we have shown that chiral topological textures can be stabilized by shaping nanostructures in an appropriate way,” concluded Dubourdieu. The ability to produce and electrically ...

“In this work, we have shown that chiral topological textures can be stabilised by shaping nanostructures in an appropriate way,” says Dubourdieu. The ability to create and electrically ...

Chiral solids, for example, offer exciting opportunities for catalysis, sensing and optical devices by enabling unique interactions with chiral molecules and polarized light. These properties are ...

Sub-Group 2: Scalable, Helical Polymer Nanostructures for Templated Synthesis of Chiral Inorganic Nanoparticles. Helical polycarbodiimides offer a versatile macromolecular scaffold for construction of ...