A breakthrough in decoding the growth process of hexagonal boron nitride (hBN), a 2D material, and its nanostructures on metal substrates could pave the way for more efficient electronics ...

Scientists have discovered that a "single atomic defect" in a layered 2D material can hold onto quantum ... material called ...

Newly achieved precise control over light emitted from incredibly tiny sources, a few nanometers in size, embedded in ...

hBN and graphene have the same crystal structure ... The manipulation of twist angles in layered two-dimensional (2D) materials, forming moiré superlattice solids, offers the potential to unveil ...

A multi-institutional research team has engineered a way to preserve the electrical properties of materials as they are shrunk to the nanoscale. The use of the soft substrate hexagonal boron nitride ...

To this end, significant efforts have been reported to epitaxially grow graphene, 2D hBN and 2D MoS2 on top of each other. However, it is a daunting task to find the right conditions for so-called vdW ...

underscoring the potential of 2D materials in advancing quantum technologies. The defect, found by researchers from the Universities of Manchester and Cambridge using a thin material called Hexagonal ...

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Breakthrough in light emission control from nanoscale sources in 2D materials could enhance ultra-high-resolution displays and quantum computing technologies.

The cautionary statement comes after Sebi discovered that some individuals or entities are interfering with the auction process by spreading false rumours, pretending to be Sebi officials, and ...

A new technical paper titled “Strain-free thin film growth of vanadium dioxide deposited on 2D atomic layered material of ...

Scientists can now leverage the exclusive capabilities of the nanoIR3-s Broadband system to come up with new discoveries in a wide array of research areas such as catalysis-based applications, ...