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RESEARCH 01
Advanced Materials Toward Electrification
The development of next-generation materials for electrification is essential to address the increasing demand for energy-efficient and sustainable technologies. By combining computational modeling with experimental validation, significant advancements are being made in designing materials that meet the challenges of modern energy systems.
RESEARCH 02
Molecular Design with A.I.
Artificial intelligence (A.I.) is transforming molecular design, enabling precise and efficient modeling of complex material behaviors. By employing advanced techniques like neural network potentials (NNPs) and materials informatics, A.I. accelerates the development of next-generation materials for applications in energy storage, electrification, and sustainability. These approaches target key challenges such as improving ionic conductivity, interfacial stability, chemical durability, and overall material performance in systems like batteries and fuel cells.
RESEARCH 03
Carbon Materials
Carbon-based materials such as fullerenes, graphene, and carbon nanotubes possess extraordinary electrical, chemical, and mechanical properties, making them a cornerstone of modern materials science. Our work focuses on both fundamental studies of these materials and their integration into advanced composites, with an emphasis on practical applications in energy storage, electronics, and thermal management.
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