The realization of graphene gapped states with large on/off ratios over wide do** ranges
remains challenging. Here, we investigate heterostructures based on Bernal-stacked bilayer …

As the family of magnetic materials is rapidly growing, two-dimensional (2D) van der Waals
(vdW) magnets have attracted increasing attention as a platform to explore fundamental …

Recently, two-dimensional magnetic materials (2DMMs) have become a focused research
direction in a broad range of two-dimensional materials, due to their underlying significance …

A promising approach to the next generation of low-power, functional, and energy-efficient
electronics relies on novel materials with coupled magnetic and electric degrees of freedom …

The long‐range magnetic ordering in frustrated magnetic systems is stabilized by coupling
magnetic moments to various degrees of freedom, for example, by enhancing magnetic …

Due to the large volume of exposed atoms and electrons at the surface of two-dimensional
materials, interfacial charge coupling has been proven as an efficient strategy to engineer …

The fabrication of one-dimensional (1D) magnetic systems on solid surfaces, although of
high fundamental interest, has yet to be achieved for a crossover between two-dimensional …

Semiconductors with controllable electronic transport coupled with magnetic behaviour,
offering programmable spin arrangements present enticing potential for next generation …

Time reversal symmetry breaking in superconductors, resulting from external magnetic fields
or spontaneous magnetization, often leads to unconventional superconducting properties. In …

Two-dimensional (2D) multiferroic materials with distinctive properties, such as half-
metallicity, high Curie temperature (TC), and magnetoelastic coupling, hold potential …