Javier M. Morales Ferrer
Dr. Javier M. Morales Ferrer was a graduate student in the Additive Assembly Laboratory. Previous REU/RET Projects include: Nanoparticle Composite Inks for 4D Printing Shape Shifting Structures (2021)
Tommaso Ranzani
2026 REU Project: Coming Soon Professor Tommaso Ranzani leads the Morphable Biorobotics Lab whose focus is robotic technologies for medicine, surgery, rehabilitation, and exploration. Dr. Ranzani has extensive experience in the development of medical robots for Minimally Invasive Surgery (MIS). He explored different technologies and developed a number of manufacturing paradigms to design and manufacture […]
Lei Tian
2026 REU Project: Signal Processing and Deep Learning Frameworks for Spatiotemporal Analysis of In-Vivo Neural Activity The Computational Imaging Systems Lab develops next-generation imaging systems that synergistically combine optics and computations. These computational imaging systems can overcome physical limitations and achieve novel capabilities that one could not with traditional imaging methods. The core of our […]
Yixin (Vera) Xu
Dr. Yixin Xu was a graduate student in the Nanoscale Energy-Fluids Transport (NEFT) Laboratory. Previous REU/RET Projects include: Developing a Nanofluidic Volatile Memory Cell (2022) Rapid Detection of Ultra-Low concentration of Nanoparticles using trapping-based Nanopore Sensing and Free-Flow Electrophoresis (2021) Nanofluidic Sensor for Clogging Monitoring (2019)
Rami Yazbeck
Dr. Rami Yazbeck was a graduate student in the Nanoscale Energy-Fluids Transport (NEFT) Laboratory. Previous REU/RET Projects include: Developing a Nanofluidic Volatile Memory Cell (2022) Rapid Detection of Ultra-Low concentration of Nanoparticles using trapped-based Nanopore Sensing and Free-Flow Electrophoresis (2021) Nanofluidic Sensor for Clogging Monitoring (2019)
Fartash Samie Yousefi
Dr. Fartash Samie Yousefi was a graduate student in the Atomic Membrane Lab. Previous REU/RET Projects include: Fabrication and Characterization of Atomically Thin Nanomechanical Resonators (2021)
Xin Zhang
Professor Xin Zhang’s scholarly endeavors are dedicated to pushing the boundaries of metamaterials and microelectromechanical systems (MEMS or microsystems), spanning from elucidating their fundamental physics and mathematical underpinnings to crafting their design, development, and practical implementation in real-world scenarios. The ultimate success in developing these material and system classes hinges both on a rigorous understanding […]