Current Scholars

ARCS Scholar

• PhD Candidate in Molecular & Cell Biology
• BS in Biomedical Sciences and minor in Chemistry at Northern Arizona University
• At NAU Austin studied the fungal pathogen Coccidioides and the disease it causes, Valley Fever. As a PhD student, he is focusing on cancer research, specifically studying the enzyme known as QSOX1 and its relationship to interacting proteins. QSOX1 is upregulated in several cancer types and is correlated with increased invasion and metastasis of tumors.

Van Denburgh Scholar

• PhD Candidate in Applied Mathematics
• BS in Mathematics from ASU
• Samantha works on an interdisciplinary team of researchers to develop new tools to monitor disease transmission on the community level. While at-home and clinical tests for diseases like COVID-19 can help an individual determine disease status, these tests may result in false negatives or have reporting delays. Her work relies on estimating the true number of cases via wastewater-based surveillance and mathematical modelling. This allows for a more accurate, real-time picture of transmission in a community and can help public officials make informed decisions in controlling the spread of a disease.

Sands Scholar

• PhD Candidate in Neuroscience
• BA in Medical Humanities; MS in Neuroscience from Arizona State University
• Sammie's research addresses the genetic contributors to aging and sex differences on cognition and brain structure in a longitudinal cohort of middle-aged and older (MA+) autistic adults 40-75 years of age. She evaluates the effects of autism risk genes on memory decline and temporal lobe/hippocampal aging in MA+ autistic adults. Results will significantly impact the biological understanding of cognitive, brain aging, and sex differences in autism by incorporating both molecular and systems-level approaches. The dissemination of findings to the broader autism community will be empowered by Sammie's unique perspective as an openly autistic adult.

Louis Jugloff Memorial Endowment Scholar

• PhD Candidate in Industrial Engineering 
• BS from University of Puerto Rico and MS from ASU in Industrial Engineering  
• Xaimarie's research interest lies in the field of machine learning for sequential data with applications to agriculture. Her focus is on the development of data-driven tools that aid decision-making in the fresh produce supply chain. She is developing an intelligent system that gathers market information, monitors it to identify disruptive events, and forecasts future market conditions in terms of prices. Furthermore, to expand the applicability of her research to any region in the US, she is developing a forecasting method capable of predicting for locations without existing data.

Spetzler Scholar

• PhD Candidate in Microbiology
• BS in Microbiology from Brigham Young University
• Keilen's current research focuses on the genetics and physiology of stress responses in E. coli. Her work is on a mutation that makes cells more resistant to antibiotics, oxidative chemicals, high salt concentrations, high temperatures, and other conditions that are damaging to living organisms. She investigates how this mutation changes the internal workings of the cell and how we can work around similar mutations as they arise in pathogens. This work increases our understanding of "superbugs" and how we can fight them to eliminate infection and disease.

Horejsi Charitable Foundation Scholar

• PhD Candidate in Molecular Biology
• BS in Biological Sciences from ASU
• Brianah is working to understand the epigenetic changes (DNA methylation) in the immune system that occur during aging in companion dogs, and how socio-economic, built, and natural environmental factors can influence age-related disease accumulation and help us better understand how to increase both dog and human health. Understanding the fundamental molecular mechanism of biological aging can help us develop and create more effective therapeutics for age-related disease (Alzheimer’s, cancer, heart disease).

Krepper Family Trust Scholar

• PhD Candidate in Applied Mathematics
• BS and MS in Applied Mathematics from Arizona State University
• Max's research involves creating and analyzing mathematical models governed by probabilistic local interactions. He proves qualitative results about the long-term behavior of these models. He has studied the impact of decoupling individuals who are infected with a disease into asymptomatic and symptomatic groups through the lens of a multi-type contact process. Additionally, he proved new results about a process by Durrett and Levin modeling Allelopathy in space. Max has also developed two new models: an extension of the Deffuant model of opinion dynamics accommodating polarizing interactions, and the Kindness model, reflecting his belief in every human's capacity for kindness.

The Kemper and Ethel Marley Foundation Scholar

• PhD Candidate in Biomedical Engineering
• BS and MS in Biomedical Engineering from Arizona State University
• Taylor studies how cortical cells utilize nutrients to maintain energy balance and perform essential biological functions. She is interested in studying how metabolic activities are regulated throughout aging and in understanding their role in neurodegeneration. Her work leverages 3D cell culture models that recapitulate complex features of the human brain to study temporal changes throughout aging. Using these models, her research aims to characterize early molecular changes that drive metabolic reprogramming in degenerating cells. The overall goal is to understand how metabolism influences cortical health and degeneration to improve treatment strategies for early intervention.

Lauber Endowment Scholar

• PhD Candidate in Civil, Environmental and Sustainable Engineering 
• BS in Aerospace Engineering, Earth and Environmental Sciences from the University of Michigan 
• Her research focuses on the prevention of biofilm formation in water tanks, which causes about 4 trilllion dollars per year of economic loss in the United States and nearly 80% of all microbial infections. She is using biocidal UV-C light delivered by UV-CLEDs paired with Side Emitting Optical Fibers. The small, flexible nature of optical fibers makes them candidates for use in water treatment systems and medical fields and indicates applications in photocatalytic, photolysis, and optical science fields. 

Theresa F. Jennings Memorial Scholar

• PhD candidate in Civil, Environmental, and Sustainable Engineering
• BS in Environmental Science from Duke University
• Maya is a first-year environmental engineering PhD student interested in recovering valuable metals from waters near abandoned mines in Arizona. She is looking into the use of membrane biofilm reactor technology to capture critical metals such as nickel, cobalt, manganese, cadmium and zinc. Her work involves screening surface water samples that meet “ideal” conditions, then setting up lab-scale membrane biofilm reactors to test the removal of these metals. During her undergraduate years, Maya researched using encapsulated bacteria to degrade polycyclic aromatic hydrocarbons (PAHs).

Wilhoit Foundation Scholar

• PhD Candidate in Electrical Engineering
• BS in Electrical Engineering from ASU
• Kelvin's research aims to create a new photovoltaic control system that can extract the maximum available power out of photovoltaic arrays without any power converters, their associated cost, and power loss. These systems have applications in solar-powered hydrogen production, direct solar charging of electric vehicles, and stand-alone solar photovoltaic systems, with improved scalability, reliability, and efficiency over conventional solar photovoltaic systems. The completion of this research offers a unique cost-effective solution that could prepare solar energy for wide-scale adoption.

Marley Foundation Scholar in Memory of Bud Webb

• PhD Candidate in Environmental Life Sciences
• BS in Geoscience from Drexel University
• Chris is working to understand how climate change will affect the below-ground components of dryland ecosystems. To investigate how plant roots grow and respond to changes in rainfall, he applies machine learning and remote sensing technologies to long-term ecological experiments. This research will provide critical information about changes in the functioning of dryland ecosystems, which cover over 40% of the Earth’s land surface and house nearly a fifth of the world’s human population. 

Van Denburgh Scholar

• PhD Candidate in Biomedical Engineering
• BS in Bioengineeering at the University of Washington
• Romi first became interested in muscle biology and cardiac disease pathogenesis. Her current research investigates the molecular basis for cardiac relaxation and how disease-causing mutations impact that structure-function relationship. She has mastered complex techniques such as time-resolved Forster's resonance energy transfer (TR-FRET) which she is using to investigate the structural basis for cardiac relaxation.

Kucera Scholar
 

• PhD Candidate in Plant Sciences
• BS in Microbiology from Arizona State University
• Ciara Garcia studies how the crop microbiome contributes to plant resilience and performance under abiotic stress. She is interested in understanding how plant-microbe and microbe-microbe interactions within the microbiome affect the microbiome's potential as a symbiotic partner to crops, to ultimately inform sustainable solutions to intensive agricultural practices.

Anne Spychala Family Charitable Foundation Scholar

• PhD Candidate in Microbiology
• BS in Microbiology from the University of Maryland
• Elizabeth’s current research is emphasizes the need to understand how different dietary components and environmental factors impact host metabolic homeostasis through changes in the gut microbiota. Her project focuses on the impact of food components, mainly plant-based dietary fibers, on metabolic homeostasis, through alterations in the gut microbiota and its metabolites.  Her current two projects focus on the impact of environmental chemicals, either (1) the herbicide glyphosate, or (2) chlorinated drinking water, on metabolic homeostasis.

ARCS Scholar
 

• PhD Candidate in Biomedical Engineering
• BS in Physiology and Medical Science from The University of Arizona
• Following undergraduate school, Thomas spent a couple of years working in a variety of medical settings as a scribe and then as a research technician.  With this experience, he determined his contribution towards medicine would be best suited as an engineer and returned to pursue a PhD in Biomedical Engineering.  His research focuses on imaging and developing computational models of digestive cancers for improvement in non-invasive detection and classification of these diseases.

Ponce Scholar

• PhD Candidate in Applied Mathematics
• BS in Applied and Computational Mathematics from Brigham Young University; MS in Applied Mathematics from The University of Arizona
• Aaron's research focuses on modeling the thermochemical non-equilibrium behavior of gas particles at hypersonic speeds by simulating the population of each vibrational state to describe the energy transfer. His research works to make molecular collision rate data from different energy surfaces self-consistent to allow for more complete simulations. This increased understanding of the hypersonic gas dynamics will help the modeling of re-entry vehicles into planetary atmospheres.

Kathryn Johnston West Scholar

• MD-PhD Candidate in Biomedical Engineering
• BA in Physics and Philosophy from Virginia Tech
• Dilara an aspiring physician-scientist in interventional radiology. Following undergraduate school, she pursued two years of research as a post-baccalaureate fellow at the NIH. Under the mentorship of Dr. Jennifer Barton, her current work focuses on developing miniature optical endoscopes which enable high-resolution visualization of tissue microstructures, particularly in the fallopian tubes. Her research aims to advance diagnosis and understanding of diseases affecting women, including ovarian cancer, endometriosis, and infertility.

Plenge Endowment Scholar

• PhD Candidate in Physiological Sciences GIDP
• BS in Molecular and Cellular Biology and in Physiology and Medical Sciences from The University of Arizona
• Vito’s research focuses on how the gut microbiome may contribute to cardiovascular disease (CVD) risk in menopause. Menopause is highly associated with an increased risk of developing CVD due to loss of estrogen. Estrogen loss in menopause has been associated with shifts in the gut microbiome which could have a high impact on host health, including increasing risk for chronic illnesses such as CVD. He focuses on using cultures of intestinal stem cells from mice to develop a selective screening tool for probiotics that could provide beneficial health outcomes within menopausal women.

Margaret “Peg” Moseley Scholar

• PhD Candidate in Neuroscience
• BS in Neuroscience and in Psychological Science from Carthage College
• Kelsy is studying the effects of inflammation on the brain after ischemic stroke. She is interested in extricating the dichotomous outcomes of microglia, the immune cells of the brain. Microglia can activate and become pro-inflammatory, promoting cell death, or anti-inflammatory, stimulating cell repair. Microglia become activated during stressful events in the brain, i.e., during oxygen and nutrient deprivation from ischemic stroke. Stroke is a leading cause of death and disability, yet there are very few treatments. By harnessing and amplifying the repair function of microglia, Kelsy hopes to discover novel methods of improving outcomes after stroke. 

Mary Ann White Memorial Scholar

• PhD Candidate in Physics
• BS in Physics from the University of Washington
• Anna is studying experimental condensed matter physics under Professor Brian LeRoy. Currently her research is focused on nanoscale optical imaging of 2D transition metal dichalcogenide (TMD) semiconductors for eventual use in industry and technological applications. Joining the UA scientific community, responsible for such strong, interdisciplinary research, has been an instrumental step towards her goal of remaining in academia and one day leading her own research group.

Theresa F. Jennings Memorial Scholar

• PhD Candidate in Climate Science
• BS in Geoscience from the University of Maine; MS in Climate Science from The University of Arizona
• Holly's current doctoral research focuses on the role of the stratosphere in the climate system, with the overarching aim of identifying specific design choices within climate models that lead to discrepancies in projections of regional climate patterns.