Electrons in two-dimensional (2D) systems placed under strong magnetic fields often behave in unique ways, prompting the ...

Interlayer coupling provides an opportunity to observe new physics and a novel strategy for modulating the electronic and optoelectronic properties of two-dimensional (2D) van der Waals (vdW) ...

The twisted spirals made in this work exhibit interesting, tuneable superconductive properties. Courtesy: S Jin Researchers have found a way to grow layers of two-dimensional (2D) materials with ...

Near the 100th anniversary of the discovery of ferroelectricity, so-called sliding ferroelectricity has been proposed and confirmed recently in a series of experiments that have stimulated remarkable ...

Materials arranger: Garcia Hernandez has co-ordinated a topical review on synthesis and characterisation methods for 2D materials. (Courtesy: UIMP) What is the focus of your own research? We grow ...

Researchers, funders, and industry experts in 2D materials call for science to reward reliability over speed, proposing ...

Limiting quantum particles to move in one, two, or three dimensions has led to the observation of many striking phenomena. A prime example is the quantization of the Hall conductance measured in 2D ...

Ultrathin materials such as graphene promise a revolution in nanoscience and technology. Researchers at Chalmers University of Technology, Sweden, have now made an important advance within the field.

Ultracold polar molecules provide a promising platform for quantum simulation and studying quantum systems with long-range dipolar interactions. These dipolar interactions can be mapped to spin ...

Ultrathin materials such as graphene promise a revolution in nanoscience and technology. Researchers have now made an important advance within the field. In a recent article they present a method for ...