Recent advances in nanotechnology have introduced transition-metal dichalcogenides
(TMDs) as inorganic nanomaterials with exceptional properties and structures, suitable also …

Symmetry breaking in 2D layered materials plays a significant role in their macroscopic
electrical, optical, magnetic and topological properties, including, but not limited to, spin …

In the presence of a large perpendicular electric field, Bernal-stacked bilayer graphene
(BLG) features several broken-symmetry metallic phases,–as well as magnetic-field-induced …

Abstract van der Waals materials have greatly expanded our design space of
heterostructures by allowing individual layers to be stacked at non-equilibrium …

Moiré quantum matter has emerged as a materials platform in which correlated and
topological phases can be explored with unprecedented control. Among them, magic-angle …

The search for new two-dimensional monolayers with diverse electronic properties has
attracted growing interest in recent years. Here, we present an approach to construct MA2Z4 …

Nonreciprocal responses in noncentrosymmetric systems contain a broad range of
phenomena. Especially, non-dissipative and coherent nonreciprocal transport in solids is an …

Since the discovery of graphene, the family of two-dimensional materials has grown,
displaying a broad range of electronic properties. Recent additions include semiconductors …

The past decade has witnessed an explosion in the field of quantum materials, headlined by
the predictions and discoveries of novel Landau-symmetry-broken phases in correlated …

Reducing the dimensionality of layered materials can result in properties distinct from their
bulk crystals,–. However, the emergent properties in atomically thin samples, in particular in …