• 2D Transition Metal Dichalcogenides

Layered van der Waals semiconductors with tunable band structures and high carrier mobility, making them promising materials for next-generation transistors and optoelectronic devices.

• 2D Phase Perovskites

2D perovskite semiconductors offer tunable quantum-well structures, strong light-matter interaction, and versatile functionality for transistors, photodetectors, and other optoelectronic devices.

• 2D Metal Oxyhalides

Layered 2D metal oxyhalides provide anisotropic transport, tunable interlayer coupling, and promising electronic and optoelectronic properties.

• Device Physics and Operating Principles

Understanding the fundamental mechanisms governing charge transport and exciton dynamics, with particular focus on carrier generation, transport, recombination, and excitonic processes.

• Device Architecture and Fabrication

Design, fabrication, and structural engineering of electronic and optoelectronic devices, including transistors, photodetectors, and detectors.

• Performance Evaluation and Characterization

Comprehensive evaluation of device performance through electrical and optoelectronic measurements.

• Device-Based Intelligent Systems

Leveraging our developed electronic and optoelectronic devices, we construct system-level platforms by integrating device functionalities with signal-processing and control architectures.

• Neuromorphic and Brain-Inspired Computing 

We explore neuromorphic and brain-inspired computing enabled by emerging electronic devices. we aim to develop energy-efficient and adaptive computing platforms for next-generation intelligent systems.

• Edge and On-Device Processing

We develop system architectures for low-latency and energy-efficient processing at or near the device level, supporting scalable intelligent systems.