Graphene is a material poised to revolutionise the electronics and semiconductor industries. Once a laboratory curiosity, it now faces the critical challenge ...

Now a research team led by Professor Sir Andre Geim at The University of Manchester, in collaboration with scientists from Belgium and China, have used low-energy electrons to punch individual ...

This approach allowed the researchers to precisely control the shape and structure of the graphene nanoribbons at the atomic level. The ‘Z-shape’ design allows for the asymmetric fabrication ...

We also demonstrate that there are realistic possibilities to scale up the described approach and mass produce graphene-based membranes with required sieve sizes.” Mr. Jijo Abraham and Dr. Vasu ...

Graphene’ s quantum properties, such as superconductivity and other unique quantum behaviors, are known to arise when graphene atomic layers are stacked and twisted with precision to produce “ABC ...

Similarly, graphene amorphized through electron irradiation ... This approach minimizes human bias in image selection and atomic structure identification, offering a rapid and consistent method ...

This approach allowed the researchers to precisely control the shape and structure of the graphene nanoribbons at the atomic level. The Z-shape design allows for the asymmetric fabrication by ...

The results were incredibly promising. "The homogeneous fibrous structure of graphene embedded with nanodiamond showed significant stability in harsh plasma environments," Sankaran says.