The University of Washington was awarded $2.5 million from the Gordon and Betty Moore Foundation to fund 16 postdoctoral fellows in a number of fields across the College of Arts & Sciences, the College of Engineering and the College of the Environment.
The UW is one of 30 U.S. research universities to receive the funding. The grants support work in a range of natural science disciplines supported by the foundation, including disciplines of astronomy, biology, chemistry, Earth and planetary sciences, ecology materials science, physics and quantum information. Post doctoral fellows will receive between $90,000 and $200,000 for work lasting nine to 24 months.
Gordon and Betty Moore established the Moore Foundation in 2000 to create positive outcomes for future generations. In pursuit of that vision, the Foundation advances scientific discovery and environmental conservation. It is one of the nation’s leading philanthropies with an endowment of approximately $12 billion and annual grantmaking exceeding $500 million.
In awarding the funds, officials with the Moore Foundation noted the “critical role postdoctoral fellows play in advancing scientific discovery and the importance of maintaining the talent pipeline for science.”
The UW is well known for training future researchers and scientific leaders across disciplines. Many of the post-doctoral fellows in this cohort say they plan to pursue faculty positions, to inspire another generation of scientists.
“The work these postdoctoral researchers are doing will increase our understanding of the planet and the universe, helping to create a better future for all,” said Cecilia Giachelli, associate vice provost for research and a professor of bioengineering. “We are deeply grateful to the Gordon and Betty Moore Foundation for their generous support.”
UW News asked the cohort of Moore Foundation postdoctoral fellows to share their research goals. Here’s what they told us:
Arachaporn Anutaliya, Applied Physics Laboratory:
“I’m excited to receive this fellowship because it allows me to study large-scale equatorial waves that move heat through the ocean and shape global climate patterns. Understanding how these waves redistribute heat is essential for improving our understanding of climate variability and global warming. This fellowship supports my goal of building a career in ocean and climate science that connects fundamental research to broader climate understanding.”
Arpit Arora, Department of Astronomy:
“I am thrilled to receive this fellowship, as it lets me collaborate with the UW experts leading the Rubin Observatory to study dark matter — the invisible substance making up 85% of all matter in the universe. I use computer simulations to model ‘stellar streams,’ which are long trails of stars being torn apart by our galaxy’s gravity. By comparing these simulations with new telescope data, I can use the motion of these stars to map out the hidden influence of dark matter and finally understand how it shapes our universe.”
George Brencher, Department of Civil & Environmental Engineering:
“My research uses satellite data and machine learning to improve measurements of snow and ice that are needed for managing water resources and natural hazards. Rapid advances in Earth observation and machine learning are transforming the field, allowing us to push the limits of what we can observe on Earth from space. This fellowship will allow me to develop new approaches that translate these advances into meaningful, real-world impact.”
Leo Brody, Department of Chemical Engineering:
“Receiving this fellowship gives me the flexibility to explore a new class of materials that could dramatically lower the cost of turning waste plastics and biomass into useful fuels and chemicals. I am especially excited about replacing rare, expensive catalysts with materials made from Earth-abundant elements like iron, aluminum and carbon. This support will help me prioritize making energy and chemical production cleaner, cheaper and more sustainable.”
Jamie Cochran, Department of Biology:
“I will study the physiology of the freshwater crustacean Hyalella azteca, which is used to understand the impact of aquatic stressors — such as metals or pesticides — on freshwater environments. Just like humans require a specific ratio of salt to water for survival, these shrimp-like crustaceans must regulate their internal balance of ions to water. My project involves trying to determine the mechanisms behind this balance, which could also help us understand other sensitive freshwater creatures. I am grateful to this fellowship for the opportunity to investigate this ecologically significant species.”
Debarati Das, Department of Chemistry:
“As a biochemist, I am keen on pursuing a career in industry or the government sector addressing questions at the interface of chemistry and biology. I find microorganisms particularly fascinating because they are able to live in diverse habitats, from the deep sea to the human body. With the support of the Moore Foundation, I will be able to develop new skills to study how microbes use unique chemistry to adapt to different environmental conditions. This work will help us to understand the critical roles of microorganisms in every ecosystem on our planet.”
Mateo Lopez Espejo, Department of Psychology:
“When we hear a sound, we turn our heads to focus our vision and hearing on the source. This is a process called active sensing. I am excited to investigate the mechanisms behind this process using the fruit fly as a model so that I can take advantage of its genetic tools and fully mapped brain connectivity. The support of this fellowship will be fundamental to help me establish this research plan during my postdoc, and to cement my future career.”
Cassandra Henderson, Department of Civil & Environmental Engineering:
“I am pleased to accept the Moore Foundation fellowship to support my essential research in preparing Washington communities for climate change. With this assistance, I will be able to continue work on the Puget Sound Coastal Storm Modeling System, which enables long term flood planning that addresses sea level rise.”
Sophia Jannetty, Department of Biology:
“I use computer simulations to explore how the behavior of individual cells affects the health of our tissues and organs. I am honored to receive the Moore Foundation fellowship, which will allow me to apply this approach to better understand how aging cells and inflammation interact to influence disease. I hope my work can inform more thoughtful strategies for promoting healthy aging.”
Atsushi Matsuda, Department of Biology:
“Electron microscopy reveals extraordinary details inside living cells, but turning these images into accurate three-dimensional reconstructions remains a major challenge. My research aims to overcome this by combining physics-informed machine learning with computer vision to create tools that are broadly usable by biological researchers. I am excited to receive this fellowship because it gives me the freedom to pursue this highly interdisciplinary work at the intersection of biology, computational mechanics and artificial intelligence.”
Hikari Murayama, Department of Atmospheric and Climate Science:
“Quantifying greenhouse gas emissions was a core pillar of my doctoral work, and this fellowship provides an opportunity to build off of that. We’ll be focusing on historical data: Tracking past methane emissions from oil and gas facilities can give us insight into how emission patterns fluctuate over time. I’m excited to continue developing as an interdisciplinary scholar while also forming my identity as a researcher as I pursue faculty positions.”
Dongmin Shi, Department of Materials Science & Engineering:
“I am honored to receive support from the Moore Foundation fellowship, which will enable me to pursue innovative, foundational ideas with long-term impact in biomedical engineering. My research focuses on developing wearable biosensors that help monitor and better understand human health. In the future, I aim to become a faculty member who helps translate fundamental scientific discoveries into technologies that improve health care.”
Marta Ulaski, School of Aquatic and Fishery Sciences:
“Healthy rivers are the backbone of thriving salmon and trout populations but we don’t yet know if the places we protect are the ones most at risk from a warming climate. I’m looking forward to combining climate, policy and habitat information in a new way to better understand how river protections support salmon and trout. Ultimately I hope this work will help close the gap between research and conservation practice and provide evidence to guide future policy.”
Corinne Vietorisz, School of Environmental & Forest Sciences:
“I am very excited to receive the Moore Fellowship, which will allow me to join the Willing Lab at the UW to study how fire-adapted microbes can aid in forest recovery following wildfire. I am continuously amazed by the enormous impacts microorganisms have on our world. My long-term goal is to study how soil microbes — including fungi and bacteria — can improve ecosystem restoration and land management outcomes.”
Samuel Wong, Department of Physics:
“I am interested in proposing novel ways to test theories beyond the current understanding of fundamental physics, such as searching for new particles and forces. Specifically, my work involves finding ways to use precision measurement techniques to search for these tiny signals of new physics. The UW is a leading center for precision measurement, and the support from the Moore Foundation postdoctoral fellowship will allow me to do this work alongside Masha Baryakhtar, UW assistant professor of physics.”
Weiwang Zeng, Department of Chemistry:
“I am excited to receive this fellowship because it gives me the freedom to take big scientific risks at a crucial stage in my career. I use ultrafast bursts of light in a special range of the electromagnetic spectrum to reveal and control new behaviors in atomically thin quantum materials. With this support, I can build toward an independent research program.”