The research in our lab focuses on novel phenomena in complex oxides and  interfaces. We start from ab-initial calculations, synthesize artificially-designed thin films and interfaces with atomic-layer-precision control via molecular beam epitaxy (MBE),  apply angle-resolved photoemission sopectroscopy (ARPES) for the electron structures, and combine ex-situ structural, transport, and magnetic measurements to investigate the novel properties in the materials. The main research field includes:

•  Synthesis of free-standing two-dimensional oxide thin films and two-dimensional strongly correlated phases

•  Novel high temperature superconducting phenomena and corresponding mechanisms in oxide thin films and interfaces

•  Magnetoelectronic control of multiferroic oxide thin films and interfaces

•  Spin-orbit coupling effect and topological Mott states in 5d transition metal oxides

•  Spintronics in oxide thin films

•  Spin orbit coupling effect and topological Mott states in 5D transition metal oxides

•  Spin electronics of oxide films