To study the interactions between electrons in a material, physicists have come up with a number of tricks over the years.

Scientists have made a major breakthrough in imaging the dynamic assembly of bilayer covalent organic frameworks in solution.

The sensitivity of moiré materials to external stimuli, such as electric and magnetic fields, strain, and chemical environments, makes them promising candidates for sensor and actuator applications.

A moiré superlattice is a pattern that emerges when two layers of periodic structures, like 2D materials, are stacked on top of each other but slightly misaligned or at different angles.

The manipulation of twist angles in layered two-dimensional (2D) materials, forming moiré superlattice solids ... led to new insights into the nature of superconductivity and magnetism. The potential ...

Imaging bilayer COFs in solution reveals mechanisms of moiré superlattice formation, advancing understanding of stacking in ...

The fractional quantum Hall effect has generally been seen under very high magnetic fields ... graphene/ hexagonal boron nitride (hBN) moire superlattice, electrons (blue ball) interact with ...

Now, researchers from the Florida State University Department of Physics and FSU-headquartered National High Magnetic Field .

Moiré superlattice belongs to the current exciting field of “twistronics”, where a new correlated electron phase can be created when one lattice is rotated with respect to another in a ...