Numerous of the greatest inventions in modern society, such as solar cells, display panels,
and transistors, rely on a simple concept: An external stimulus is applied to a material and …

Over the past decades, perovskite materials, including oxide and hybrid types, have drawn
considerable attention. Oxide perovskite materials have been investigated for a long time as …

Ferrimagnetic insulators have gained much attention as material platforms with efficient
magnetization dynamics. To date, epitaxial iron garnet thin films are the most widely used …

Controlling electronic processes in low-dimension electron systems is centrally important for
both fundamental and applied researches. While most of the previous works focused on …

Materials with a large linear magnetoresistance (MR) are great candidates for magnetic
sensors, but rarity boosts investigations for exploring this MR in material physics. 2D …

The rich functionalities of transition-metal oxides and their interfaces bear an enormous
technological potential. Its realization in practical devices requires, however, a significant …

Two-dimensional electron gas (2DEG) formed at the heterointerface between two oxide
insulators hosts plenty of emergent phenomena and provides new opportunities for …

The 5d 2D electron gas (2DEG) in KTaO3‐based heterostructures exhibits stronger spin‐
orbit coupling and higher superconducting transition temperature compared to the 3d …

The influence of the composition within multilayered heterostructure oxide semiconductors
has a critical impact on the performance of thin-film transistor (TFT) devices. The …

The development of superconducting materials has attracted significant attention not only for
their improved performance, such as high transition temperature (TC), but also for the …