In quantum materials, emergent functional properties resulting from strong correlations or
electronic topology offer opportunities for new applications. Over the past decade, ultrafast …

Crystalline solids typically show robust long-range structural ordering, vital for their
remarkable electronic properties and use in functional electronics, albeit with limited …

Transition metal dichalcogenides (TMDs) intercalated with spin-bearing transition metal
centers are a diverse class of magnetic materials where the spin density and ordering …

Abstract Two-dimensional (2D) layered materials have been studied in depth during the past
two decades due to their unique structure and properties. Transition metal (TM) intercalation …

Some magnetic systems display a shift in the center of their magnetic hysteresis loop away
from zero field, a phenomenon termed exchange bias. Despite the extensive use of the …

When doped into a certain range of charge carrier concentrations, MoS2 departs from its
pristine semiconducting character to become a strongly correlated material characterized by …

The magnetic anisotropy can stabilize long-range ferromagnetic order in pristine two-
dimensional (2D) crystals, which inspires the research of fundamental physics and …

The construction of thin film heterostructures has been a widely successful archetype for
fabricating materials with emergent physical properties. This strategy is of particular …

The ability to tune the carrier transport properties of semiconducting two-dimensional
materials is critical toward their eventual integration into nanoelectronic devices …

Spintronic devices are driving new paradigms of bio-inspired, energy efficient computation
like neuromorphic stochastic computing and in-memory computing. They have also …