纳米尺度下，低维材料本身的局域场与力、电、磁、流等外物理场的耦合变得十分突出，形成纳米尺度特有的多场耦合调控行为。本方向结合传统牛顿力学、量子力学与固体物理等方法，发现低维碳、氮化硼等材料一系列奇特的力-电-磁-热耦合效应以及基于固液耦合的水伏效应等新现象和新规律。

Coupling between local and external fields (F-force, E-electric field, M-magnetic field, O-optical, T-thermal) at nanoscale

And tunable properties of typical low-dimensional materials by mechano-electro-magnetic coupling

Substrate‐dependent 2D boron structures

Generating electricity by moving a droplet of ionic liquid along graphene

Waving potential in graphene

Mechanisms and applications of emerging hydrovoltaic technology