Complex transition-metal oxides (TMOs) are critical materials for cutting-edge electronics
and energy-related technologies, on the basis of their intriguing properties including …

The family of transition metal oxides (TMOs) is a large class of magnetic materials that has
been intensively studied due to the rich physics involved as well as the promising potential …

Perpendicular magnetic anisotropy (PMA) plays a critical role in the development of
spintronics, thereby demanding new strategies to control PMA. Here we demonstrate a …

Due to the strong interlayer coupling between multiple degrees of freedom, oxide
heterostructures have demonstrated exotic properties that are not shown by their bulk …

Ultrathin van der Waals (vdW) magnets are heavily pursued for potential applications in
develo** high‐density miniaturized electronic/spintronic devices as well as for topological …

Control of materials through custom design of ionic distributions represents a powerful new
approach to develop future technologies ranging from spintronic logic and memory devices …

Strain engineering of epitaxial heterostructures offers opportunities to control the orbital
degree of freedom by lifting the degeneracy of eg states. Here, we show that the orbital …

Nanoscale superlattice structures are known to significantly suppress the thermal
conductivity in thin films due to phonon scattering at the interfaces of the mutually different …

We observe an induced switchable magnetic moment of 1.6±0.40 μ B/Fe for the nominally
antiferromagnetic LaFe O 3 extending two to four interface layers into the non–charge …

Emergent magnetic phenomena at interfaces represent a frontier in materials science,
pivotal for advancing technologies in spintronics and magnetic storage. In this Letter, we …