Six University of Utah graduate students have been offered awards in the National Science Foundation’s Graduate Research Fellowship Program (NSF GRFP) for 2025. The prestigious fellowship supports outstanding doctoral and research-based master’s students doing research in science, technology, engineering and mathematics, or STEM, disciplines.

Four of them hail from the John and Marcia Price College of Engineering:

 

Max Balitskiy, chemical engineering

Max Balitskiy posed headshotI will be discovering and inventing new protein catalysts—catalysts that are cheaper, more efficient, and more accessible than ever before. These novel, nifty, chemical machines will make plastic recycling profitable, personalized medicine readily accessible, and make specialty chemicals easier to create.

Rebecca Patush, materials science

Rebecca Patush posed headshotThis NSF Fellowship will support my research on hydrogel materials for biomedical implants. I am developing long-lasting hydrogel coatings for next-generation brain-computer interfaces, with the goal of reducing the body’s immune response to these devices. By mitigating this reaction, the coatings aim to preserve surrounding tissue health and maintain device performance long-term.

Andrew Tolton, materials science

Andrew Tolton posed headshotI’ve been doing research at the U using high-performance computing to study the electronic properties of organic materials, focusing on improving the efficiency of polymer solar cells. With the NSF-GRFP, I will be starting a Ph.D. program at UCLA, continuing to study computational material science in their Mechanical and Aerospace Engineering Program. My broad goal is to develop nanomaterials for renewable energy applications.

Karen Walker, mechanical engineering

Karen Walker working at a lab benchI will be investigating the impact of prosthetic devices on the biomechanics and mobility of individuals with lower-limb amputations. These devices provide powered assistance, which can enhance gait mechanics, increase efficiency and improve overall comfort when walking.