Scientists in Japan have developed a device that enables external magnetic field control of magnetic injection current in the bulk photovoltaic effect (BPVE), a phenomenon not yet used in commercial ...

A joint research team has successfully developed a two-dimensional (2D) quantum material platform through the superposition of moiré lattices.

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 ...

Twist Opens Doors for New Designer 2D Materials 2025 0224 2D materials with a twist 1 A scanning tunneling microscopy (STM) study of moiré superlattice formation on a twisted bilayer covalent organic ...

Moiré atoms and Wigner molecule (a) Schematic of moiré superlattice and (b) corresponding moiré potential at ϕ = 10°. Its minima, moiré atoms, form a triangular lattice. (c) Evolution of ...

When two lattices with distinct angles or periodicities come together, they conjure a moiré superlattice — a realm where astonishing phenomena like superconductivity and optical solitons spring ...

Scientists report observing Rydberg moire excitons, which are moire-trapped Rydberg excitons in the monolayer semiconductor WSe2 adjacent to small-angle twisted bilayer graphene.

New species of exciton discovered with novel characteristics in moire crystal superlattice.

A new species of exciton with novel characteristics has been discovered in moiré crystal superlattice. Scientists have developed a pristine unit-cell matrix projection method that reduces ...

The evolution in the morphology and its consequent modulation in the electronic band was studied in long-wavelength WS2 moiré superlattice under the combined effects of extrinsic heterostrain and ...

The first evidence of strong electron-electron interactions in a graphene superlattice has been revealed by Fourier transform infrared photocurrent spectra analysis.