3 Earn Goldwater Scholarships, Among Nation’s Most Competitive STEM Awards
Three Syracuse University students鈥攐ne researching proteins, one mapping geothermal heat beneath Greenland’s ice sheet and one engineering bacteria-fighting surfaces for medical implants鈥攁re recipients of the 2026 Goldwater Scholarship.
They are the following:
- Mallory Brown 鈥27, a neuroscience and statistics major in the (A&S) and a member of the ;
- Kenna Cummings 鈥27, a geology major in A&S; and
- Khuong Pham 鈥27, a biomedical engineering major in the (ECS) and a member of the Ren茅e Crown University Honors Program.
罢丑别听聽was established by Congress in 1986 to honor U.S. Sen. Barry Goldwater, the five-term senator from Arizona. The program provides a continuing source of highly qualified scientists, mathematicians and engineers by awarding scholarships to students who intend to pursue research careers in these fields. The Goldwater Foundation received 1,485 nominations this year from around the country and 454 students were selected for the scholarship.
Each Syracuse University Goldwater Scholarship nominee worked with the (CFSA) to prepare their application. A faculty committee, headed by, professor of chemistry in A&S, selected Syracuse鈥檚 nominees for the national competition.
鈥淲e are so proud of Kenna, Khuong and Mallory. They each stand to make significant contributions to their respective fields, and society, throughout their scientific careers, and it is exciting to see them honored with this award,鈥 says Melissa Welshans, assistant director of CFSA. 鈥淭he selection of three Syracuse students this year is a testament to the robust support for undergraduate research and excellent faculty mentorship students receive here.鈥
Mallory Brown
Pursuing a statistics major turned out to be the decision that defined Brown鈥檚 research career. That mathematical foundation gave her an edge in the lab, and she has put it to use across two distinct research environments.
In the lab of , associate professor of biology and chemistry in A&S, Brown works with intrinsically disordered proteins, working to understand their 聽behavior in live cells and under heat stress. She worked to experimentally quantify the chemical structure of RTL8, a protein known to interact with the UBQLN2 protein.
Brown also performed research with Amanda Cremone-Caira at the BRAiN Lab at Merrimack College, where she applied her statistical skills to a child development study, uncovering meaningful patterns of disagreement between caregiver and teacher assessments of preschool behavior, patterns previously unreported in literature.
Brown is drawn to large, complex data sets and the hidden stories within them. But she is equally motivated by the knowledge that her findings could reshape how researchers understand ALS and early childhood development. In the future, she hopes to conduct research and teach at a university, paying forward the mentorship that shaped her own path.
Kenna Cummings
Cummings came to geophysics with a goal already in mind: a career in geothermal energy. That clarity of purpose led her to the Geophysics Computing Lab of, assistant professor of Earth and environmental sciences in A&S, where she found her research question.聽Scanning the seismology literature on geothermal gradients beneath Greenland, she noticed that paper after paper overlooked the ice sheet itself, despite its potential as a surficial indicator of ground temperature.
Now, guided by Russell and graduate student Isaac Rotimi, Cummings uses the horizontal to vertical spectral ratio (HVSR) method to constrain shallow layers like the ice sheet and investigate how elevated geothermal temperatures affect basal conditions that drive melting, icequakes and sliding. The work matters beyond Greenland since accurately distinguishing geothermal from climate-driven ice loss is essential for building better climate models.
For Cummings, the research is inseparable from its real-world stakes. She envisions leading a lab at a geothermal energy company, working at the intersection of science, industry and policy to make geothermal systems more efficient and more widespread. She is equally focused on the risks, such as induced seismicity, heat pollution and impacts on water resources. Earth systems, she says, are complex and interconnected, and responsible innovation demands that researchers understand them fully before intervening.
Khuong Pham
Pham鈥檚 research sits at the intersection of chemistry, biology and engineering. Working to design antimicrobial peptoids鈥攕ynthetic molecules that mimic the infection-fighting proteins our bodies naturally produce–he is helping develop “self-defensive” surfaces for implanted medical devices like joint replacements. His challenge is to engineer peptoids that cluster just enough to withstand the body’s environment yet remain ready to deploy against invading bacteria on contact.
This work builds on a strong computational foundation developed through his research with , Milton and Ann Stevenson Endowed Professor of Biomedical and Chemical Engineering and chair of biomedical and chemical engineering in ECS, where he has honed skills in molecular simulation, Python scripting and high-performance computing, tools that have proven transferable across every research environment he has entered. He has also conducted research at the Ludwig-Maximilians-Universit盲t in Munich, Germany, in Alena Khmelinskaia鈥檚 Protein Design and Self-Assembly Group through the support of a National Science Foundation Research Experience for Undergraduates.
Pham hopes to one day lead his own research lab as a professor, applying computational tools to design responsive proteins and biomaterial systems that address problems in medicine and biotechnology.
CFSA seeks applicants for the Goldwater Scholarship each fall; the campus deadline is mid-November each year. Interested students should contact CFSA at聽cfsa@syr.edu.
