About
Our laboratory pursues a comprehensive approach grounded in microscopic theory, integrating numerical analysis with advanced measurement techniques to elucidate and control the thermal and electrical transport properties and other physical characteristics of multiscale structures spanning different length scales. We further harness phenomena that emerge at the nano- to micro-scale to develop new scientific principles from a mechanical-engineering perspective and to create innovative materials and devices that will advance next-generation energy and electronics industries.
News
- 2026-07-01 New Members Joined Our Lab
- 2026-05-25 Intern Student Visiting Our Lab
- 2026-05-23 Collaborative Paper Published: Thermal Conductivity Suppression by Nanoinclusions with Mass Contrast and Structural Disorder
- 2026-04-04 Collaborative Paper Published: Modulation of Heat Flow via Electrochemical Doping in Conducting Polymer PBTTT
- 2026-04-01 New Undergraduate Students Joined Our Lab
- 2026-03-09 Research paper published
- 2026-03-04 Collaborative Paper Published: Thermally Triggered Non-Diffuse Phonon Reflection from Boundaries in Single-Crystal Diamond Nanobeams
- 2026-02-17 Collaborative Paper Published: Interpretable Thermal Transport Prediction in Amorphous Graphene