Add to ORKGMoir\'e superlattices in twisted two-dimensional materials have generated tremendous excitement as a platform for achieving quantum properties on demand. However, the moir\'e pattern is highly sensitive to the interlayer atomic registry, and current assembly techniques suffer from imprecise control of the average twist angle, spatial inhomogeneity in the local twist angle, and distortions due to random strain. Here, we demonstrate a new way to manipulate the moir\'e patterns in hetero- and homo-bilayers through in-plane bending of monolayer ribbons, using the tip of an atomic force microscope. This technique achieves continuous variation of twist angles with improved twist-angle homogeneity and reduced random strain, resulting in moir\'e pa...
Patterning graphene into various mesoscopic devices such as nanoribbons, quantum dots, etc. by litho...
Stacking two layers of graphene on top of each other with a twist gives rise to a moiré pattern. The...
Van der Waals heteroepitaxy allows deterministic control over lattice mismatch or azimuthal orientat...
We report deterministic control over moir\'e superlattice geometry in twisted bilayer graphene by im...
The emerging field of twistronics, which harnesses the twist angle between two-dimensional materials...
Twisting two adjacent layers of van der Waals materials with respect to each other can lead to flat ...
In stacks of two-dimensional crystals, mismatch of their lattice constants and misalignment of cryst...
Abstract The ability to precisely control moiré patterns in two-dimensional materials has enabled th...
Recently, multiple theoretical and experimental studies have been published regarding the properties...
[EN] In 'magic angle' twisted bilayer graphene (TBG) a flat band forms, yielding correlated insulato...
Interlayer rotational alignment in van der Waals (vdW) structures of two-dimensional (2D) materials ...
We present a general method to analyze the topological nature of the domain boundary connectivity th...
Moire patterns result from setting a 2D material such as graphene on another 2D material with a smal...
Unlike conventional two-dimensional (2D) semiconductor superlattices, moir\'{e} patterns in 2D mater...
Strain engineering on layered two dimensional materials has gained some interest for mod- ulating de...
Patterning graphene into various mesoscopic devices such as nanoribbons, quantum dots, etc. by litho...
Stacking two layers of graphene on top of each other with a twist gives rise to a moiré pattern. The...
Van der Waals heteroepitaxy allows deterministic control over lattice mismatch or azimuthal orientat...
We report deterministic control over moir\'e superlattice geometry in twisted bilayer graphene by im...
The emerging field of twistronics, which harnesses the twist angle between two-dimensional materials...
Twisting two adjacent layers of van der Waals materials with respect to each other can lead to flat ...
In stacks of two-dimensional crystals, mismatch of their lattice constants and misalignment of cryst...
Abstract The ability to precisely control moiré patterns in two-dimensional materials has enabled th...
Recently, multiple theoretical and experimental studies have been published regarding the properties...
[EN] In 'magic angle' twisted bilayer graphene (TBG) a flat band forms, yielding correlated insulato...
Interlayer rotational alignment in van der Waals (vdW) structures of two-dimensional (2D) materials ...
We present a general method to analyze the topological nature of the domain boundary connectivity th...
Moire patterns result from setting a 2D material such as graphene on another 2D material with a smal...
Unlike conventional two-dimensional (2D) semiconductor superlattices, moir\'{e} patterns in 2D mater...
Strain engineering on layered two dimensional materials has gained some interest for mod- ulating de...
Patterning graphene into various mesoscopic devices such as nanoribbons, quantum dots, etc. by litho...
Stacking two layers of graphene on top of each other with a twist gives rise to a moiré pattern. The...
Van der Waals heteroepitaxy allows deterministic control over lattice mismatch or azimuthal orientat...