A new technique integrates 2D materials into devices and systems in a single step, while keeping surfaces and interfaces free from defects. This method could enable devices like those in computer ...

As the demand for data-intensive computing grows, so too does the need for next-generation memory technologies capable of ...

Thin, 2D materials with properties that can be studied and manipulated easily have immense implications for higher-performance transistors, optical devices such as solar cells, and quantum ...

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 ...

“Over time, this research could inspire the development of new 2D materials and device concepts, ultimately leading to more efficient and powerful electronic devices for everyday use.” The work was ...

Coordination nanosheets are a unique class of two-dimensional (2D) materials that are formed by coordination bonds between ...

A new technical paper titled “Exploring optimal TMDC multi-channel GAA-FET architectures at sub-1nm nodes” was published by ...

There are 2D materials that are good semiconductors, though, like molybdenum disulfide or tungsten diselenide. “They offer very stable electrical performance even below one nanometer,” Kim said.

Researchers have built a computer from scratch without silicon, a “milestone” in showing that it is possible to one day ...

Why 2D Materials Matter. Neuromorphic devices aim to replicate how biological neurons process and respond to information, often using memristive components that change resistance in response to ...

India is exploring two-dimensional (2D) materials as a potential leapfrog in semiconductor technology, sources told . Unlike ...

Current semiconductors are fabricated using silicon wafers, but 2D materials like graphene, phosphorene, and transition metal dichalcogenides (TMDs) are only a few atoms thick. This extreme thinness ...