Welcome
We are an experimental research group exploring the frontiers of nanoelectronics to develop bio-inspired and neuromorphic devices for next-generation sensing, computing, storage, and security applications. Leveraging novel nanomaterials, particularly two-dimensional (2D) materials, we aim to create energy-efficient, scalable, and adaptive hardware platforms that address critical technological and societal challenges. Our research is highly interdisciplinary, blending materials science, electrical engineering, applied physics, and computational design. We welcome motivated, hard-working students and postdoctoral scholars from diverse scientific and engineering backgrounds who share our passion for discovery, innovation, and impact.
Our vision and Plannings
Our research group envisions a future where atomically thin materials and neuromorphic architectures reshape the foundations of modern electronics to meet the grand challenges of the 21st century. By bridging quantum-scale phenomena with real-world functionality, we aim to pioneer transformative technologies in computing, sensing, and intelligent systems—driving scalable, energy-efficient, and sustainable solutions for a greener future.
Research Areas
Developing advanced sensors for chemical detection and environmental monitoring applications.
Designing secure hardware architectures to protect against emerging threats and vulnerabilities.
Creating three-dimensional integrated circuits to overcome the limitations of planar technology.
Developing computing systems that mimic the structure and function of biological neural networks.
Exploring the potential of two-dimensional materials for next-generation electronic devices.
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