Scientists demonstrate that light can interact even with single-atom layers, paving the way for more environmentally friendly ...

Scientists reveal how interfacial coupling impacts optical properties in 2D magnetic and graphene materials, advancing ...

Researchers successfully integrated flexible electronics with a three-ply, self-deployable boom that weighs only about 20 ...

Researchers used spectroscopic techniques to study energy transport in COFs, advancing their potential for optoelectronic ...

Researchers have engineered a new type of refrigerator that can autonomously cool superconducting qubits to record low ...

Novel membrane technology achieves precise separation of near-identical molecules using atomic-scale structural control, ...

Star-made atoms cycle through giant galactic currents in space, forming a cosmic conveyor belt that returns material to ...

Researchers develop a method to control doping in nanocrystals, improving semiconductor performance for advanced devices like displays and transistors while addressing environmental concerns.

Electron transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism.

Janus graphene nanoribbons' zigzag edge hosts a ferromagnetic spin chain, paving the way for advances in quantum electronics ...

New flexible sensor technology transforms ordinary diapers into medical monitoring devices, enabling real-time tracking of ...

Scientists show non-ferroelectric materials can gain ferroelectric properties when stacked with ferroelectric materials - a phenomenon called proximity ferroelectricity.