The single-layer dimetal oxides (MOenes) are recently predicted two-dimensional materials
derived from the widely investigated MXenes. To develop high-performance hydrogen …

A two-dimensional (2D) monolayer of a novel ternary nitride Zn2VN3 is computationally
designed, and its dynamical and thermal stability is demonstrated. A synthesis strategy is …

Dimensional confinement has shown to be an effective strategy to tune competing degrees
of freedom in complex oxides. Here, we achieved atomic layered growth of trigonal …

The physical properties induced by layer stacking in two dimensional materials are
fascinating. Here, a hexagonal Kagome lattice V2Se3 is constructed to investigate the …

Two-dimensional (2D) magnet–insulator heterostructures have shown potential as
promising platforms for tuning valleytronics and spintronics. Thanks to their two-dimensional …

Due to the low dimensionality in the quantization of the electronic states and degree of
freedom for device modulation, two-dimensional ferromagnetism plays a critical role in lots …

Two-dimensional (2D) topological insulators (TIs) or quantum spin Hall (QSH) insulators,
characterized by insulating 2D electronic band structures and metallic helical edge states …

The previously reported X 2 O 3 (X= V, Cr, Mn, Ta) monolayers crystallize in a honeycomb–
kagome (HK) structure and are found primarily to be ferromagnetic Chern insulators with …

Abstract Two-dimensional (2D) materials within the hematene-type binary oxides and
perovskites family have recently gathered huge research interest for nanoelectronic devices …

In this work, first-principles calculations have been utilized to predict the existence of a new
Cu2TeO6 monolayer. It is shown that the predicted material is dynamically and thermally …