Two-dimensional (2D) materials, which are only a few atoms thick, are known to exhibit unique electrical, mechanical and ...

With THz spectroscopy scaled down to chip-sized, researchers identified a potential new way to control quantum materials.

From transistors and flexible display to neuromorphic chips, the future of electronics is expected to be significantly ...

Scientists have discovered that ultra-thin materials—just a few atoms thick—can naturally create tiny “cavities” that trap ...

Researchers have found a new way to turn low-frequency light into higher-frequency terahertz waves using special quantum ...

Van der Waals forces, once deemed too weak for structural integrity, have been shown to create stable, highly porous frameworks with exceptional thermal resilience and reversible assembly, paving the ...

By miniaturizing THz spectroscopy to a chip-scale platform, James McIver’s lab has uncovered a promising new method for controlling quantum materials. Under certain conditions, two-dimensional (2D) ...

Researchers have found that 2D materials can self-form microscopic cavities that trap light and electrons, altering their ...

The quantum anomalous Hall effect (QAHE) has unique advantages in topotronic applications, but it is still a key scientific challenge to realize the QAHE with tunable magnetic and topological ...

Air pollution isn’t always visible, but it affects nearly every breath taken indoors. Floating in the air are tiny particles ...