Research Area I:Precise construction, interfacial effects and photoelectric properties of novel semiconductor heterogeneous superlattices

Based on the structural design of semiconductor heterogeneous superlattice materials, the correlation interface effects of semiconductor heterogeneous superlattices are studied, and the macroscopic photoelectric device properties of the materials are related. The relationship and common rules between different interfacial microstructure and interfacial effects are revealed. The design of high-efficiency optoelectronic devices based on new semiconductor heterotopic superlattices provides powerful theoretical and practical applications for the development of new high-efficiency optoelectronic semiconductor devices.

Research Area II: Efficient catalytic and energy storage devices based on novel porous nanostructures

Based on the design and synthesis of new porous nanomaterials and their applications in the fields of high efficiency catalysis and energy storage. It is committed to developing new methods for the synthesis of nanostructured porous materials, promoting and controlling molecular “directional” self-assembly processes, enriching new theories of directional design and controllable preparation, creating new structured high-performance porous materials, and applying them to many important fields such as electric vehicles, portable electronic devices and renewable energy.