RESEARCH INTERESTS
Our research seeks to understand how materials transform, function, and interact at the atomic scale, especially under realistic environments where energy conversion and catalytic processes occur. We develop and apply advanced electron microscopy techniques—including in situ liquid-phase and electrochemical TEM—to directly visualize nanoscale dynamics in real time.
By integrating real-space imaging with synthesis, physical modeling, and selectively automated experimentation, we aim to reveal the fundamental structure–function relationships that govern performance in catalytic, electrochemical, and soft-matter systems.
Current research areas include nanoscale synthesis, phase transitions, interfacial reactivity, and dynamic structure–function relationships.
Through interdisciplinary approaches combining materials chemistry, microscopy, and artificial intelligence, we are building a scientific foundation for the rational design of functional materials in energy, environment, and beyond.
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