What if electricity and magnetism, usually considered as separate or even competing forces in materials, could actually work ...

A new metasurface design greatly improves light emission in atomically thin materials, offering a path to low-power, flexible ...

According to a report in Nature(via Interesting Engineering), researchers from the Chinese Academy of Physics can create super-thin sheets, just one or two atoms thick, out of materials including ...

In an article published in the journal Nature on Thursday, the researchers said that compared to their bulkier counterparts, their ultra-thin metal sheets – especially one-atom-thick bismuth ...

However, the creation of 2D metals has been extremely difficult due to the strong metallic bonds between atoms in all directions, said Zhang Guangyu, a leading scientist on the IOP research team.

The team developed an innovative all-stacking technique for fabricating 2D electrical devices, optimizing the interface contact between 2D materials and metal electrodes.

Shao said layered metal halide perovskites, commonly called 2D perovskites, can be synthesized in solution and their optical and electronic properties tuned by changing their composition. They easily ...

More information: Benjamin Lowe et al, Local gate control of Mott metal-insulator transition in a 2D metal-organic framework, Nature Communications (2024). DOI: 10.1038/s41467-024-47766-8 Journal ...

Researchers at IIT-P and Forschungszentrum Jülich have discovered a new 2D metallic material called 'Molybdenene' that can make batteries more powerful. The material has excellent heat resistance ...

We present theoretical studies on an EBG line-defect waveguide which is formed in a two-dimensional (2D) slab, comprised of a square lattice of multi-layer metallic open square rings (OSRs). The ...

The issues associated with the diamond lattice confinement of helium ions were addressed by increasing the helium ion implantation temperature to 1573 K, which simultaneously improved the helium ...