The large variety of 2D materials and their co-integration in van der Waals heterostructures
enable innovative device engineering. In addition, their atomically thin nature promotes the …

Rapid digital technology advancement has resulted in a tremendous increase in computing
tasks imposing stringent energy efficiency and area efficiency requirements on next …

Atomic defects, being the most prevalent zero-dimensional topological defects, are
ubiquitous in a wide range of 2D transition-metal dichalcogenides (TMDs). They could be …

Abstract Clay-based nanomaterials, especially 2: 1 aluminosilicates such as vermiculite,
biotite, and illite, have demonstrated great potential in various fields. However, their …

Abstract 2D materials are attractive for nanoelectronics due to their ultimate thickness
dimension and unique physical properties. A wide variety of emerging spintronic device …

Although only a few 2D materials have been predicted to possess ferroelectricity, 2D
ferroelectrics are expected to play a dominant role in the upcoming nano era as important …

The discovery of an ever-increasing family of atomic layered magnetic materials, together
with the already established vast catalogue of strong spin–orbit coupling and topological …

The field of spintronics has attracted tremendous attention recently owing to its ability to offer
a solution for the present-day problem of increased power dissipation in electronic circuits …

Feasibility of many emergent phenomena that intrinsic magnetic topological insulators (TIs)
may host depends crucially on our ability to engineer and efficiently tune their electronic and …

Spin-ordered electronic states in hydrogen-terminated zigzag nanographene give rise to
magnetic quantum phenomena, that have sparked renewed interest in carbon-based …