Exciting electronic characteristics emerge when scientists stack 2D materials on top of each other and give the top layer a ...

As the miniaturization of silicon-based semiconductor devices approaches fundamental physical limits, the electronics ...

Beyond their sparkle, diamonds have hidden talents. They shed heat better than any material, tolerate extreme temperatures ...

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 ...

However, a notable limitation of MoS2 is its poor absorbance in the infrared. The broadband optical detection ability, especially from ultraviolet to the near infrared range, is critical for ...

The 2D devices fabricated using CDimension’s ultra-thin films have demonstrated up to a 1,000X improvement in ...

A team of researchers have pioneered the use of a new device to continually “twist” the angle between atomically thin layered materials with “unprecedented flexibility and accuracy” — a development ...

In a groundbreaking experiment, researchers from Tsinghua University have proven that two-dimensional (2D) semiconductor materials can withstand the harsh conditions of space. The team, led by ...

As the demand for smarter, smaller, and more energy-efficient electronics surges, the limits of conventional 3D semiconductors are becoming impossible to ignore. Now, researchers from Netaji Subhas ...

A recent review in npj 2D Materials and Applications explores how two-dimensional (2D) materials are shaping the development of neuromorphic and artificial sensory devices. With properties that mimic ...