Scientists have found a way to use light to control and read tiny quantum states inside atom-thin materials. The simple ...

Artificial intelligence speeds metasurface design from unit cells to full optical systems, enabling compact imaging, AR and ...

Listening to the 'whispers' of electrons and crystals has lead to a quantum discovery with terahertz light that could help us ...

Gold nanoparticles are only effective in strengthening optical signals when the nanoparticles are arranged on a surface and ...

With the successful introduction of manganese into perovskite nanoparticles, researchers have 'doped the undopable'.

New model explains stability and electronic behavior of boron nanostructures from hollow clusters to ultrathin 2D layers, ...

Scientists have created a high-throughput computational strategy, creating a new, data-driven approach to finding ideal 2D materials and substrates.

New quiet, filterless air purifier sprays nano-sized water droplets to trap ultrafine dust, slashing power use and avoiding ...

A membrane-free solid-state reactor turns captured carbon dioxideinto clean formic acid that feeds microbes, growing ...

This material is usually nearly invisible in optical microscopes because it has no optical resonances. To resolve this issue, ...

A new atomically precise carbon sheet combines nanoporous graphene and biphenylene stripes, offering controlled ...

Metallenes are atomically thin metals, whose unique properties make them extremely promising for nanoscale applications.