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At the forefront of materials science, our research group is committed to advancing the understanding of atomic-scale interactions that govern material properties. In an era of rapid technological growth, where innovations must keep pace with societal needs, we explore how subtle variations in atomic structure and chemistry can unlock new functionalities in materials.

Our work is deeply rooted in investigating disorder at the atomic level, which can dramatically alter electronic, magnetic, and thermal properties. By focusing on these local structures, we strive to manipulate materials in ways that open up new opportunities for applications in energy, electronics, and quantum technologies. High entropy oxides (HEOs) and amorphous materials are of particular interest to us, as their inherent disorder presents a unique platform for creating tunable and metastable properties.

Using state-of-the-art spectroscopic techniques combined with computational modeling and machine learning, we aim to accelerate materials discovery. Our goal is to provide new insights into how atomic-level complexity can drive innovations, enabling breakthroughs that will power future technologies.