D carbon-based materials have rapidly evolved from scientific curiosities to essential building blocks for advanced materials engineering. Over the past ...

Firstly, a brief introduction was given to commonly used two-dimensional materials, including graphene, transition metal dichalcogenides (TMDC), black phosphorus (BP), and hexagonal boron nitride ...

In a first for the field, materials scientists from The Grainger College of Engineering at the University of Illinois Urbana-Champaign have interfaced two materials to artificially generate a highly ...

Materials scientists have succeeded in creating a genuine 2D hybrid material called glaphene. Some of the most promising materials for future technologies come in layers just one atom thick -- ...

Finding new materials with useful properties is a primary goal for materials scientists, and it's central to improving technology. One exciting area of current research is 2D materials—super-thin ...

Researchers have discovered a new 2D material, confirming decade-old prediction. More than ten years ago, researchers at Rice University led by materials scientist Boris Yakobson predicted that boron ...

Ultrafast measurements reveal how light energy moves across two dimensional and organic semiconductor interfaces, enabling rapid transfer that could improve future optoelectronic devices. (Nanowerk ...

Diffusing oxygen into 2D materials can improve adhesion properties. Channel-last processes can preserve most of the traditional gate-all-around process flow. Dual-gate MoS 2 FETs with graphene ...

Researchers at TU Wien have found that many 2D materials considered promising for ultra‑small transistors are unsuitable due to a tiny interface gap with insulating layers that degrades performance.