Intercalated architecture of MA2Z4 family layered van der Waals materials with emerging topological, magnetic and superconducting properties.

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 monolayers with a septuple-atomic-layer structure, that is, intercalating a MoS₂-type monolayer MZ₂ into an InSe-type monolayer A₂Z₂. We illustrate this unique strategy by means of first-principles calculations, which not only reproduce the structures of MoSi₂N₄ and MnBi₂Te₄ that were already experimentally synthesized, but also predict 72 compounds that are thermodynamically and dynamically stable. Such an intercalated architecture significantly reconstructs the band structures of the constituents MZ₂ and A₂Z₂, leading to diverse electronic properties for MA₂Z₄, which can be classified according to the total number of valence electrons. The systems with 32 and 34 valence electrons are mostly semiconductors. Whereas, those with 33 valence electrons can be nonmagnetic metals or ferromagnetic semiconductors. In particular, we find that, among the predicted compounds, (Ca,Sr)Ga₂Te₄ are topologically nontrivial by both the standard density functional theory and hybrid functional calculations. While VSi₂P₄ is a ferromagnetic semiconductor and TaSi₂N₄ is a type-I Ising superconductor. Moreover, WSi₂P₄ is a direct gap semiconductor with peculiar spin-valley properties, which are robust against interlayer interactions. Our study thus provides an effective way of designing septuple-atomic-layer MA₂Z₄ with unusual electronic properties to draw immediate experimental interest. The discovery of a new two-dimensional van der Waals layered MoSi₂N₄ material inspires many attentions. Here, the authors report intercalation strategies to explore a much wider range of MA₂Z₄ family and predict amount of materials accessible to experimental verifications with emergent topological, magnetic or Ising superconductivity properties. [ABSTRACT FROM AUTHOR]