Polymorphic 2D materials allow structural and electronic phase engineering, which can be
used to realize energy-efficient, cost-effective, and scalable device applications. The phase …

In recent years, 2D layered materials have received considerable research interest on
account of their substantial material systems and unique physicochemical properties …

The behaviour of strongly correlated materials, and in particular unconventional
superconductors, has been studied extensively for decades, but is still not well understood …

Metastable 1T′-phase transition metal dichalcogenides (1T′-TMDs) with semi-metallic
natures have attracted increasing interest owing to their uniquely distorted structures and …

Recent advances in materials fabrication have enabled the manufacturing of ordered 2D
electron systems, such as heterogeneous interfaces, atomic layers grown by molecular …

Iontronics is a newly emerging interdisciplinary concept which bridges electronics and
ionics, covering electrochemistry, solid‐state physics, electronic engineering, and biological …

Abstract Two-dimensional superconductor (2DSC) monolayers with non-centrosymmetry
exhibit unconventional Ising pair superconductivity and an enhanced upper critical field …

Out-of-plane ferroelectricity with a high transition temperature in ultrathin films is important
for the exploration of new domain physics and scaling down of memory devices. However …

The discovery of monolayer superconductors bears consequences for both fundamental
physics and device applications. Currently, the growth of superconducting monolayers can …

Abstract Systems simultaneously exhibiting superconductivity and spin–orbit coupling are
predicted to provide a route toward topological superconductivity and unconventional …