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 ...

A new technical paper titled “The 2D Materials Roadmap” was published by researchers at many institutions including Chinese Academy of Sciences, TU Denmark, Pennsylvania State University, University ...

BUFFALO, N.Y. — Nanoelectronics deal with extremely small electronic components — transistors, sensors and circuits that can fit on the tip of a needle. This technology powers our everyday lives ...

After the successful separation of a monolayer of carbon atoms with honeycomb lattice known as graphene in 2004, a large group of 2D materials known as TMDCs and MXenes were discovered and studied.

(Nanowerk News) One of the big selling points of two-dimensional (2D) materials is their self-passivated nature, which allows them to be deposited on any substrate and opens up new possibilities for ...

Materials that are incredibly thin, only a few atoms thick, exhibit unique properties that make them appealing for energy storage, catalysis and water purification. Researchers have now developed a ...

Materials just atoms in thickness, known as two-dimensional (2D) materials, are set to revolutionize future technology, including in the electronics industry. However, commercialization of devices ...

(Nanowerk News) A new 2D quantum material has been discovered. The material consists of atom-thin layers of cerium, silicon and iodine (CeSiI) and is the first example of a 2D material with heavy ...

The unique properties of two-dimensional (2D) materials, which are only a few atoms to a single atom thick, differ from those of their three-dimensional (3D) counterparts. 2D materials have had a ...

A new 2D quantum material has been discovered. The material consists of atom-thin layers of cerium, silicon and iodine (CeSiI) and is the first example of a 2D material with heavy fermions. It is ...

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 ...