The ultimate goal of my research is to increase the equity and accessibility of procedural knowledge for everyone. I'm fascinated by exploring how to create scaffolding tools for common users to consume knowledge by leveraging advanced techniques, such as language and image processing.
I was drawn into engineering because I’ve always loved figuring out how things work. My love for aerospace engineering blossomed during undergraduate studies at UC Davis, when I joined the Space and Satellite Systems (SSS) club and gained hands-on experience with CubeSat (small satellite) design
I decided I wanted a career where I could explore new things. Cue my decision to pursue a Ph.D.! I chose UC Davis as the Department of Electrical and Computer Engineering had a great variety of professors and a great connection to Silicon Valley.
I enjoyed computer science courses in undergrad, but didn't realize that I could possibly pursue a Ph.D. until I was a senior! I had always thought that Ph.D. degrees were for geniuses, not people like me. Continuing my studies at UC Davis has been such an amazing experience, and I feel incredibly lucky to have been accepted here under such a supportive advisor.
I saw how instrumental engineering methods were to creating cost-effective, novel scientific studies and wanted to apply those methods to my own research. I had an amazing experience at UC Davis as an undergraduate anthropology major, so I knew I wanted to return to Davis for my doctoral program.
I was inspired to study engineering, specifically chemical and biomolecular engineering, after seeing how much the field related to my childhood hobby of designing and constructing structures from toy components. In my field, biomolecules like DNA and proteins are engineered to build unique biological systems for health and energy purposes (i.e., pharmaceuticals, biofuels, biomaterials and specialty chemicals).
I love being able to combine the fields of public health and transportation engineering to identify different ways that planners and policymakers can improve the health and safety of communities. I also love that I am constantly learning, and I feel so fortunate to be learning from not only my course work, professors, and adviser, but also from my colleagues.
I was quickly enticed by materials science, which I sometimes describe as a junction of physics, chemistry, math, and art, when I took the Introduction to Material Properties course at my community college and was introduced to crystallography, phase diagrams and the materials tetrahedron.
I love the beauty of engineering. It's a bridge between science and real application. I liked physics and chemistry in high school, especially the lab classes, so I decided to study materials science and engineering after I learned that it’s a major that deals with both physical and chemical properties.
I absolutely love working with my hands and the satisfaction that comes from seeing tangible results. I have always found great joy in solving puzzles and overcoming challenges. I am thrilled to be on this journey and grateful for the opportunities that have allowed me to pursue my dreams.
