Moiré graphene systems have attracted considerable attention in the past 3 years because
they exhibit exotic phenomena including correlated insulating states, unconventional …

The field of two-dimensional (2D) materials-based nanophotonics has been growing at a
rapid pace, triggered by the ability to design nanophotonic systems with in situ control …

Twisted graphene-based homo-and heterostructures, consisting of two-dimensional (2D)
layered materials with a twist angle (θ), have attracted growing interest due to their unique …

Twisted van der Waals materials have been shown to host a variety of tunable electronic
structures. Here we put forward twisted trilayer graphene (TTG) as a platform to emulate …

Graphene-based moiré systems have attracted considerable interest in recent years as they
display a remarkable variety of correlated phenomena. Besides insulating and …

A unique feature of the complex band structures of moiré materials is the presence of
minivalleys, their hybridization, and scattering between them. Here, we investigate …

Control over minivalley polarization and interlayer coupling is demonstrated in double
bilayer graphene twisted with an angle of 2.37°. This intermediate angle is small enough for …

We study electronic contribution to the Raman scattering signals of two-, three-and four-layer
graphene with layers at one of the interfaces twisted by a small angle with respect to each …

Lack of directional bonding between two-dimensional crystals like graphene or monolayer
transition metal dichalcogenides provides unusual freedom in the selection of components …

We explain the strong interlayer drag resistance observed at low temperatures in bilayer
electron-hole systems in terms of an interplay between local electron-hole-pair …