The intrinsic properties of predesignable topologies and tunable electronic structures,
coupled with the increase of electrical conductivity, make two‐dimensional metal–organic …

Sodium-ion batteries (SIBs) have been attracting considerable attention as a promising
candidate for large-scale energy storage because of the abundance and low-cost of sodium …

Antiferromagnetic (AF) spin devices could be one of the representative components for
applications of spintronics thanks to the numerous advantages such as resistance to …

Two-dimensional (2D) magnetism has attracted intense attention in the area of low-
dimensional materials and devices, with intriguing physics emerging and significant …

Uncovering the physics behind the electrical manipulation of low-dimensional magnetic
materials remains a fundamental issue in practical application of nanoscale spintronics …

When spin‐orbit coupling (SOC) is absent, all proposed half‐metals with twofold degenerate
nodal points at the K (or K′) point in 2D materials are classified as “Dirac half‐metals” …

The two-dimensional metal–organic framework (2D MOF) has potential applications in
spintronics and catalytics due to the tunable structure, high crystallinity, and porosity …

The realization of antiferromagnetic multiferroics is of great significance both for fundamental
perspective and for potential use in nanoscale devices. Although almost all the known …

The development of highly sensitive, low-power consuming, stable and recyclable gas
sensing devices at room temperature has become an important solution for environmental …

The exotic effects arising from the interplay between ferroic states in two-dimensional (2D)
materials are arousing increasing interest. Using first-principles calculations, we …