Research Highlight
We Study Heat And Mass
Transfer In Advanced Thermal Systems.
ATSLA aims to combine fundamental physics of micro and nanoscale heat and mass transport processes with novel surfaces & materials to provide innovative solutions in thermal management.
Research Topics
Our research focuses on electronic packaging, microfluidic heat sinks, and energy conversion devices
for applications in flexible electronics, data centers, and unmanned aerial vehicle systems.
01 Nano-to-Macro Scale Heat and Mass Transport
We investigate the fundamental physics and interrelationships of heat and mass transport using advanced microfabrication and experimental techniques. Our enhanced predictive models offer valuable insights into complex thermal management systems.
02 Material Development for Thermal Management
We develop microfluidic heat sinks, electronic packaging solutions, and nano/micro materials for cooling and energy conversion. By integrating micro/nanofabrication techniques and innovative materials, we aim to enhance cooling efficiency in thermal management applications.
03 Theoretical, AI, and CFD Modeling for Heat Transfer
We apply Computational Fluid Dynamics (CFD) and AI-driven modeling to analyze multiphase heat transfer phenomena, including boiling and condensation. Our work focuses on numerical and theoretical approaches to understand phase change and hydraulic performance, addressing gaps in existing models. By leveraging advanced CFD and AI techniques, we gain deeper insights into heat and mass transfer mechanisms in complex thermal systems.
Current And Previous Sponsors
