The Future of Telecom Is Atomically Thin
By using a small number of photons to process information, two-dimensional quantum materials can lead to secure, energy-efficient communications.
By using a small number of photons to process information, two-dimensional quantum materials can lead to secure, energy-efficient communications.
Advanced electron microscopy and first principles calculations reveal atomic motifs at the oxidized surface of superconducting tantalum film.
This new Laue lens system received a 2022 Microscopy Today Innovation Award.
Covering metal catalyst surfaces with thin layers of oxide materials can enhance chemical reactions.
Studies of a common catalyst suggest strategies for improving the conversion of a natural gas component to useful chemicals.
Researchers create DNA nano-chambers with bonds that can control the assembly of targeted nanoparticle structures.
Scientists engineer materials’ electrical and optical properties with plasmon engineering
A unique coating camouflages the temperature of an underlying material
Scientists engineer materials’ electrical and optical properties with plasmon engineering
A unique coating camouflages the temperature of an underlying material
A material with a disordered rock salt structure could help make batteries safer, faster-charging, and able to store more energy
A new approach to functional and physiologically stable DNA origami for biomedical applications