主要研究领域为低维和表面物理，具体研究方向为：

1、先进扫描探针显微学，新型和功能化扫描探针技术与仪器多频原子力探针显微术、扫描微波显微术、qPlus-STM/AFM等。

2、低维量子功能材料的分子束外延生长制备及其物性调控二维原子晶体及其异质结构、拓扑量子材料、界面物性调控等。

3、原子尺度结构及其力、电、磁等特性；微纳米尺度物性表征与测量原子尺度结构、电子态、电荷态、电子自旋以及轨道特性等；微纳米尺度物性，如电导率、介电常数、畴区、相变等；原子尺度特性与微纳米尺度物性间的跨尺度关联研究。

Our research interests are focused on Low-Dimensional and Surface Physics, including:

1. Advanced Scanning Probe Microscopy, New and Functional SPM Techniques and Instruments

Mulitifrequency Atomic Force Microscopy, Scanning Microwave Microscopy, qPlus-STM/AFM, and so on.

2. Low-Dimensional Quantum Materials: Molecular Beam Epitaxy and Property Modulation

2D Atomic Crystals and Their Heterostructures, Topological Quantum Materials, Interfacial Property Engineering, and so on

3. Atomic Structures & Physical States; Micro- & Nano-scale Characterization and Measurement

Atomic Structure, Electronic States, Charge States, Spin and Orbital Properties; Local Physical Property at the Micro- & Nano-Scale, such as Conductivity, Permittivity, Domains, Phase Transitions, and so on; Cross-scale Relations between Atomic States and Local Physical Properties.

l SPM Techniques l 2D Atomic Crystals l Quantum Materials l Phase Transition

Schematic of the SPM measurement