Materials Modeling and Scientific Computing
The Materials Modeling and Scientific Computing Group at GeM Laboratory pioneers cutting-edge research in computational mathematics and machine learning to decode complex phenomena in soft matter and advanced materials. Led by Prof. Zecheng Gan, the group focuses on developing scalable numerical algorithms, data-driven methodologies, and multiscale modeling frameworks for simulating...
Energy Storage and Conversion Materials
The Energy Storage and Conversion Materials Group at GeM Laboratory drives innovation in next-generation energy technologies through advanced material design, dynamic characterization, and device-level engineering. Their mission is to develop sustainable, high-efficiency solutions for energy storage and conversion, bridging fundamental science with real-world applications in renewable energy systems and smart...
Wide Bandgap Semiconductors
The Wide Bandgap Semiconductors Group at the GeM Laboratory spearheads research on advanced semiconductor materials and nanostructures for high-performance electronic and optoelectronic devices. Centered on wide and ultrawide bandgap systems, the group pioneers novel concepts to overcome limitations in conventional semiconductor technologies. By merging computational modeling, precision synthesis, and real-world...
The Lightweight and Interfacial Materials
At the GeM Laboratory's Lightweight and Interfacial Materials (LIM) Group , they are on a thrilling quest to decode the secrets of phase separation and interfacial behaviors in heterophase polymer systems. It is not just research—it is a journey toward pioneering new materials that could revolutionize the way we think...
Ultrafast Photophysics
At the GeM Laboratory’s Ultrafast Photophysics Group, researchers focus on unraveling ultrafast photophysical processes in advanced optoelectronic materials and devices, with an emphasis on light-matter interactions, charge dynamics, and energy conversion mechanisms. Their work bridges ultrafast spectroscopy, material engineering, and device physics to address fundamental challenges in fields such as...
Experimental Physical Chemistry
At the GeM Laboratory’s Experimental Physical Chemistry Group, researchers employ light as a versatile tool to trigger, characterize, and control electronic behavior in advanced materials at extreme spatiotemporal scales.Key questions they explore include: The rapid emergence of nanomaterials, metamaterials, and quantum computing materials presents unprecedented opportunities for their research. Below...
Plastic Upcycling For Hydrogenation And Carbonization
Plastic degradation Carbonization and utilization Hydrogen evolution and separation
Green Energy Generation And Storage
Solar energy conversion Fuel cells High energy batteries
Bioelectronics Design And Investigation
Flexible and light weighted devices Biocompatible device Protein design