Quantum Materials and Quantum Devices


Aiming at studying systematically the nano-fabrications of low-dimensional hybrid devices and their quantum properties under electric or magnetic fields, the research mainly utilize nanofabrication methods for synthesizing heterostructures of different nanostructures and nanomaterials, in order to study their novel interfacial coupling and novel gate-tunable functionalities such as low-dimensional magnetic semiconductors, topological superconductivities, etc. Extreme conditions including high magnetic field and mK temperature are also used to investigate quantum transport properties of such systems, in the view-point of fundamental investigations as well as potential applications in nanoelectronics and nanophysics.