Unexpected, yet useful functionalities emerge when two or more materials merge
coherently. Artificial oxide superlattices realize atomic and crystal structures that are not …

Abstract SrRuO 3 (SRO)-based heterostructures have attracted much attention for potential
applications such as electrodes, oxide spintronics, topological electronics and …

Electronic correlations could have significant impact on the material properties. They are
typically pronounced for localized orbitals and enhanced in low-dimensional systems, so …

Freestanding oxide nanomembranes have promising applications because of their novel
electronic states and flexible crystalline structures. Several materials have been developed …

Berry curvature plays a crucial role in exotic electronic states of quantum materials, such as
the intrinsic anomalous Hall effect. As Berry curvature is highly sensitive to subtle changes of …

The combination of small coercive fields and weak magnetic anisotropy makes soft
ferromagnetic films extremely useful for nanoscale devices that need to easily switch spin …

Spin—orbit coupling (SOC) combined with electronic correlation can induce topological
phase transition, producing novel electronic states. Here, we investigate the impact of SOC …

By modifying the entangled multi‐degrees of freedom of transition‐metal oxides, interlayer
coupling usually produces interfacial phases with unusual functionalities. Herein, a …

Bonding geometry engineering of metal–oxygen octahedra is a facile way of tailoring
various functional properties of transition metal oxides. Several approaches, including …

Ferromagnetic materials with a strong spin‐orbit coupling (SOC) have attracted much
attention in recent years because of their exotic properties and potential applications in …