Materials Science and Engineering Ph.D. candidate Pallavi D. Sambre is taking the first steps toward engineering lifelike artificial materials that reconstitute a cell’s ability to change their membrane shape to move from one part of the body to another.
Second-year materials science and engineering Ph.D. student Margaret Duncan, part of Associate Professor Marina Leite’s lab, received a National Science Foundation (NSF) Graduate Research Fellowship. The fellowship is the oldest and one of the most prestigious of its kind and it recognizes and supports outstanding STEM graduate students who have the potential to become knowledgeable experts and significantly contribute to research, teaching, and innovation.
UC Davis engineers are innovating at high and low temperatures to enable travel at hypersonic speeds and sustainably keep food safe and fresh, respectively.
Materials Science and Engineering Assistant Professor Scott McCormack and his team received $1.4M from the Air Force Office of Science and Research to reduce uncertainty and standardized processing techniques for ultra-high temperature ceramics.
Ultra-high temperature ceramics (UHTCs) are ceramic materials that melt at temperatures above 3000˚C, nearly 5500˚F. Their ability to withstand extreme heat loads makes them ideal for building hypersonic vehicles and platforms, but UHTCs can be difficult to process reliably.
Materials Science and Engineering Associate Professor Roopali Kukreja has received the prestigious National Science Foundation Faculty Early Career Development (NSF CAREER) Award.
Materials Science and Engineering Assistant Professor Seung Sae Hong recently received a prestigious National Science Foundation Faculty Early Career Development (NSF CAREER) Award. The CAREER award is the agency’s highest honor for young faculty. It recognizes those with the potential to be leaders in their fields and funds five-year research and education projects that should serve as the foundation for their careers.
In the spring of 2021, a team of undergraduate students at UC Davis collaborated with Elcon Precision on a project as part of the EMS 188 course. The students were excited to explore the question of nucleation and discoloration in high calcia alumina.
Professor Ricardo Castro teaches engineering students to think outside the box and to contemplate the unlikely, but not always impossible, real-world applications of materials science based on the powers of superheroes.
Optimizing the performance of electrolytes used in alternative energy technologies such as solid oxide fuel cells, and batteries relies on measuring and understanding the transport of oxide and lithium (Li) ions (O2- and Li+) and/or protons (H+) in ceramic materials.