Topic 1. Two-Dimensional Magnets with Exciton–Spin Coupling
Explores the interplay between excitonic states and spin order in atomically thin magnets, aiming to uncover new magneto-optical effects and opportunities for exciton-driven spin manipulation at the nanoscale.
Topic 2. Two-Dimensional Moiré Multilayers of Transition Metal Dichalcogenides (TMDs)
Investigates twisted or stacked TMD multilayers that host moiré superlattices, focusing on their tunable electronic, optical, and correlated quantum phases emerging from moiré engineering.
Topic 3. Nanoelectromechanical Systems (NEMS) Based on Moiré Materials
Develops next-generation NEMS devices by harnessing the unique tunability of moiré materials, enabling ultra-sensitive mechanical, optical, and electronic functionalities beyond conventional systems.
Topic 4. Novel Quantum Phenomena at 2D Superconductor–Magnet Interfaces
Studies the emergent quantum states at interfaces between two-dimensional superconductors and magnets, including unconventional pairing, proximity-induced effects, and potential platforms for topological excitations.