Programmable metamaterials that can actively change their functionality in real-time, bridging digital algorithms with physical electromagnetic responses.
Metamaterial-based sensors, working in the GHz to THz range, allow for highly sensitive, label-free detection of biological samples. Functional Nanostructures and Metamaterials for...
A of metamaterial (e.g., optical vs. mechanical)? Or perhaps a summary of fabrication techniques ? mechanical)
Techniques like electron-beam lithography, photolithography, and advanced 3D manufacturing allow for the creation of intricate, periodic, or quasi-periodic nanostructure arrays. Functional nanostructures and metamaterials are engineered
Functional nanostructures and metamaterials are engineered, artificial systems designed with subwavelength structures to manipulate light, sound, heat, and electromagnetic waves in ways not possible with natural materials. These architectures, designed at the micro- to nanoscale, exhibit extraordinary properties like negative refraction, cloaking, and high-sensitivity sensing.
Metasurfaces (2D metamaterials) are transforming imaging with flat lenses (metalenses), high-resolution imaging, and controlling light waves.