With the rapid development of modern society and the increasing popularity of electronic equipment, electromagnetic wave pollution has become a serious problem. In order to solve this problem, the ...

Researchers have found a way to make “dark excitons”—normally invisible quantum states of light—shine dramatically brighter ...

Scientists have developed artificial heterostructures made of freestanding 2D and 3D membranes that have an energy density up to 19 times higher than commercially available capacitors. Electrostatic ...

A key objective of electronics engineers is to further reduce the size of devices, while also boosting their speed, ...

Mode-locked fibre lasers, featuring ultrafast temporal information, ultrahigh peak energy, and exceptional stability, have become essential tools in modern optics and industries, including ...

These ultra-thin materials exhibit unique quantum and electronic properties not found in conventional bulk materials. Their atomic thinness allows precise control over their structures and properties ...

Breakthrough in controlling dark excitons could revolutionize quantum communication and ultra-compact photonic devices.

Raman spectroscopy has been highlighted as a vital tool for characterizing 2D materials-based van der Waal heterostructures. In this article, we explore its applications in analyzing graphene, TMDs ...

2D materials such as graphene, transition metal dichalcogenides, boron nitride, and layered double hydroxides possess several advantageous properties that make them well-suited for environmental ...

Two-dimensional (2D) materials, sparked by the isolation of Nobel-prize-winning graphene in 2004, has revolutionized modern materials science by showing that electrical, optical, and mechanical ...