T. Sobczak, D. Patil, K. Song
University of Georgia,
United States
Keywords: composites, 3D printing, nanoscale
Summary:
Kenan Song's research focuses on developing new composites through advanced 3D printing techniques for applications in microelectronics. By leveraging his expertise in Multiphase Direct Ink Writing (MDIW), Song and his team create multilayered composites that integrate functional materials such as conductive nanoparticles and phase-changing polymers. These novel composites enable enhanced thermal management, mechanical durability, and electrical performance in microelectronic devices. His work explores the use of microfluidic structures and nanofluidic devices for efficient heat dissipation, addressing the thermal challenges faced by high-performance computing (HPC) and low-power systems (LPS). The composites fabricated through MDIW also demonstrate potential for applications in chiplet-based packaging, offering scalable and efficient solutions for next-generation microelectronics.