Graduate Student Awards

Chemical engineering PhD student advancing polymer research with prestigious national defense fellowship

Susan Glairon — Thu, 11 Jun 2026 16:59:06 +0000

Chemical engineering PhD student advancing polymer research with prestigious national defense fellowship Susan Glairon Thu, 06/11/2026 - 10:59

Susan Glairon

Lauren Sullivan, a second-year chemical engineering PhD student in the Hayward and Toney labs, has received a prestigious fellowship from the National Defense Science and Engineering Graduate Fellowship Program (NDSEG).

The program, established by Congress in 1989, provides fellowships to up to 500 people across the United States annually and is designed to promote education in science and engineering disciplines relevant to the Department of Defense. Awardees receive a $3,600 per month stipend as well as full tuition and fees coverage.

What does receiving the NDSEG fellowship mean to you?

Receiving the NDSEG fellowship was a huge reassurance. Graduate school is very difficult, and like many students I have questioned whether I could succeed in research.

In addition to the academic challenges of graduate school, I have faced ongoing health issues throughout my first two years in the program. The fellowship’s guaranteed support provided both validation and peace of mind during a time when research funding and personal circumstances feel uncertain.

Briefly describe your research and why it’s important.

I study how copolymer materials form disordered, interconnected, three-dimensional structures in which both components remain fully continuous rather than breaking into isolated regions. These materials are promising for applications that require both mechanical strength and the ability to transport ions or electrons, such as solid-state batteries. My research seeks to better understand how these structures form, helping scientists design next-generation materials with improved performance and functionality.

Why does this research interest you?

I entered graduate school with a background in applied polymer science, having studied the chemical depolymerization of plastic waste (breaking plastics down to their original chemical building blocks so they can be reused to make new materials). However, I wanted to dive deeper into the physics behind polymer systems, which led me to my current research group.

What fascinates me most is how many factors must align for these disordered, cocontinuous copolymer structures (materials made from two different polymers that are connected throughout the material without forming a repeating pattern). I enjoy exploring the underlying science behind these systems and advancing our understanding of how they develop.

How will the fellowship help advance your research?

This fellowship will give me the flexibility to pursue ambitious and potentially high-impact research ideas without being limited by short-term funding constraints. It also provides a unique mentoring opportunity through the Office of Naval Research (ONR). I am looking forward to gaining additional career guidance and perspective from a mentor working outside of academia in the broader research community.

What impact do you hope your research will have?

I hope my research will provide a deeper understanding of how disordered cocontinuous copolymer systems form, enabling the development of new materials and devices. Lightweight, mechanically robust materials are a hot topic right now because of their wide range of potential applications. By better understanding this emerging class of polymer structures, I hope to help open the door to new technologies and advanced functional materials such as lightweight structural composites, solid state batteries and filtration membranes.

What advice would you give to other students interested in applying for competitive fellowships?

I would encourage students to put themselves out there and apply. It can be intimidating to apply for highly competitive fellowships, and it’s easy to write off applying when so few people are selected, but it does not hurt to try. There have been many competitive scholarships, fellowships and internships that I was not selected for, but I kept trying, and my persistence paid off.

Is there anything else you'd like readers to know?

I am incredibly grateful to my advisors, Professors Ryan Hayward and Mike Toney, as well as my lab mates and collaborators, for their mentorship and support. I am also thankful for the opportunity provided by the NDSEG fellowship, and I’m excited to continue exploring fundamental questions in polymer science that may ultimately enable new materials and technologies.

Lauren Sullivan, a second-year chemical engineering PhD student in the Hayward Lab, has received a prestigious National Defense Science and Engineering Graduate (NDSEG) Fellowship. The award will support her research on advanced polymer materials that could enable next-generation technologies such as solid-state batteries and electrolytes.

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PhD student Erin Dunphy honored with Ludo Frevel Scholarship

Susan Glairon — Thu, 12 Feb 2026 23:07:01 +0000

PhD student Erin Dunphy honored with Ludo Frevel Scholarship Susan Glairon Thu, 02/12/2026 - 16:07

Susan Glairon

Chemical and Biological Engineering PhD student Erin Dunphy has won the prestigious International Centre for Diffraction Data’s Ludo Frevel Crystallography Scholarship, which recognizes research promise in the field of crystallography. Crystallography, the science of figuring out how atoms are arranged inside a solid material, has been essential in developing X-ray, electron and neutron diffraction methods to reveal the atomic structure of materials.

Tell me about your research

My research examines how polymers (long-chain molecules) and hydrocarbon (molecules made of hydrogen and carbon, such as fuels) attach to the surface of Ruthenium-based catalysts, which are used to speed up chemical reactions. Understanding this interaction is critical to improving catalytic processes for polymer upcycling, an innovative approach for converting plastic wastes into valuable products, such as jet fuels. By studying these interactions at the atomic level, we gain insight into how the materials bind and react, helping guide the design of more efficient catalysts.

What does receiving the Ludo Frevel Crystallography Scholarship Award mean to you?

Receiving the Ludo Frevel Crystallography Scholarship is a great honor that marks a milestone for my academic career. It's exciting that my research inspires others and reminds me that fundamental research is critical to the development of new technologies.

How will this scholarship support your research or academic goals?

Receiving this scholarship reinforces my commitment to tackling complex scientific challenges by developing techniques that deliver real-world solutions. I aim to continue pushing boundaries at the intersection of fundamental science and technology development.

What drew you to crystallography as a research focus?

My first experience with advanced crystallography was during a science undergraduate laboratory internship when I worked at the National Synchrotron Light Source II. While there, I realized that materials optimization, improving a material’s properties so it performs as well as possible for a specific application, is often the key bottleneck limiting progress in energy and infrastructure technologies.

What are you most excited to work on?

I am excited to finish my CU ��Ĵ�ý research and to defend my thesis in June. I am performing my final single-crystal diffraction studies at the European Synchrotron Radiation Facility in Grenoble, France. This technique allows scientists to map the atomic structure at the crystal interface.

For these experiments, I designed a custom reaction chamber that can operate at temperatures up to 250°C and pressures of 15 bar, allowing us to study materials under realistic working conditions. I also developed specialized software that processes and analyzes the data in real time.

What are your future research or career goals?

My sights are set on integrating renewable energy onto an industrial scale. Plastics recycling using catalysis offers a route to sustainable fuel generation which is part of creating a circular energy infrastructure. Ultimately using multiple forms of green energy generation (solar, wind) is all a part of the renewable energy infrastructure.

I hope to work with industry professionals to optimize new technologies and streamline deployment onto national and international scales.

How do you hope your work will contribute to the field?

My research looks at how molecules or atoms (called adsorbates) attach to the surface of a single crystal under realistic conditions for thermal catalysis. I hope my work encourages other researchers to study surfaces in environments that go beyond the extremely clean, ultra-high vacuum conditions typically used to more real-world operating conditions. Ultimately, my work helps expand surface science to investigate materials in contact with liquids, oils and membranes under practical pressures and temperatures, making the findings more relevant to real-world applications such as in thermal catalysis.

Dunphy's research involves studying interactions at the atomic level to design more efficient catalysts for polymer upcycling, an innovative approach for converting plastic wastes into valuable products, such as jet fuels.

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Bruce Kirkpatrick honored with Outstanding Dissertation Award

Susan Glairon — Wed, 26 Nov 2025 20:16:06 +0000

Bruce Kirkpatrick honored with Outstanding Dissertation Award Susan Glairon Wed, 11/26/2025 - 13:16

Susan Glairon

Bruce Kirkpatrick

PhD, Biological Engineering, 2025

Dissertation Name

Photochemical Control of Hydrogel Network Topology: Fundamentals to Cellular Applications

Defended

July, 29, 2025

Associated lab

Anseth Group

Current position

Third-year medical student at the University of Colorado Anschutz Medical Campus and Denver Health

College of Engineering and Applied Science Outstanding Dissertation Award

This award recognizes the best dissertation (excellence of research, topical importance and presentation in the written dissertation) among students completing PhD degree requirements during a calendar year.

Why did you choose CU ��Ĵ�ý for your graduate studies?

I came to CU in 2013 for my undergraduate degree in chemical and biological engineering (ChBE), and I really enjoyed it. After earning my BS in 2017, I applied to MD-PhD programs and was accepted at CU to continue into medical and graduate school. I was thrilled to return to ChBE as a graduate student because I knew how strong the biomedical research program was, especially with Distinguished Professor Kristi Anseth in the department. Having the chance to work with her and other faculty like Distinguished Professor Chris Bowman, Professor Jason Burdick and Professor Tim White offered the experiential learning in materials science and bioengineering that I hoped for as a budding physician-scientist. (Not to mention that it is great to live in Colorado! I’d be glad to never leave.)

Hydrogels serve as tiny scaffolds for creating precise patterns or gradients in stiffness or biochemical cues—illustrated here by a Mona Lisa narrower than a human hair—allowing fine control over the environment cells experience.

What does receiving this award mean to you?

It’s a huge honor to be selected by my mentors, department, and college.This award affirms that the years I’ve invested in both science and the community are valued. I’ve been part of the ChBE program for 12 years, and I’m grateful to have had the chance to do work worthy of this recognition. I owe a great deal to Dr. Anseth for her guidance and to my collaborators and mentees for giving so much of their time to bring our projects to fruition. I feel especially grateful to have grown my work in such a supportive and collaborative environment.

Tell me about your dissertation research.

Broadly, my research focuses on developing jello-like polymeric materials called hydrogels. I use light to build, break and rearrange the tiny chemical connections within them, which lets us control properties like stiffness, degradation, relaxation, and cell behavior with precise timing and location. This helps us create more tunable, lifelike environments for studying biology and developing future medical therapies.

Why does this research topic interest you?

This field naturally combines my interests in photochemistry, dynamic chemistry, and polymers with biophysics and materials science. Hydrogels are programmable, biologically relevant platforms, so the work is both scientifically rich and clinically useful.

What applications could this research have in the future?

This research supports technologies that enable long-acting or precisely timed drug and vaccine delivery, as well as protective hydrogels that shield donor cells from the immune system and improve their survival after transplantation. These materials can also be used to create acellular devices such as contact lenses, wound dressings, and tissue adhesives along with more realistic tissue models that give researchers better platforms for studying disease and testing new treatments.

Why do you think your dissertation resonated with the award committee?

By adjusting the properties of a surrounding hydrogel, Kirkpatrick could dramatically alter how 3D- embedded human cells stretch, spread and connect, revealing how their environment influences their behavior.

I think the committee appreciated the range of questions my dissertation addressed and how the work connected chemistry, materials science and biology in a coherent way. The projects included new approaches for designing photoresponsive hydrogels, studies of mechanobiology, and tissue engineering applications, with contributions that spanned departments, colleges, and campuses across CU. I think the committee also recognized how deeply collaborative the work was. Rather than solving a single problem, my thesis points toward a variety of future applications, so its impact comes from its breadth and the way it supports a wide range of community efforts.

Who was particularly influential to your work?

Dr. Anseth was the most influential figure in my scientific training. Her intellectual brilliance, generosity with her time, and ability to connect fundamental chemistry with meaningful biological questions have shaped the way I think about research. I’ve also learned a tremendous amount from her former trainees, many of whom now lead their own groups. I was especially inspired by Professor Cole DeForest, Associate Professor Mark Tibbitt, Professor Jason Burdick, Professor April Kloxin, and Tobin Brown’s work, to name a few. My amazing collaborators and mentees were essential to the success of every project and working alongside them is what made the science rewarding.

What’s next?

I plan to apply for residency in radiation oncology. I’m excited to work as a physician-scientist with interests in materials science and photochemistry, and my goal is to build a career that bridges the clinical care of cancer patients with research on biomaterials, imaging and analysis tools, and light-based technologies. I ultimately hope to contribute to new treatment strategies that are more tolerable, precise, and effective.

Chemical and Biological Engineering PhD Student Bruce Kirkpatrick was honored with the 2025 Outstanding Dissertation Award. His hydrogel research supports technologies that enable 3D cell culture for tissue engineering and disease modeling, as well as acellular biomaterials for applications like controlled release of drugs or vaccines.

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Anika Friedman recognized by American Chemical Society

Susan Glairon — Mon, 13 Oct 2025 19:18:12 +0000

Anika Friedman recognized by American Chemical Society Susan Glairon Mon, 10/13/2025 - 13:18

Professor Michael Shirts' graduate student, Anika Friedman, was awarded the American Chemicals Society's Chemical Computing Group Excellence Award for Graduate Students. The award was presented at the CS Fall 2025 in Washington, DC.

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Chemical engineering PhD student earns major NSF fellowship

Susan Glairon — Mon, 30 Jun 2025 23:33:07 +0000

Chemical engineering PhD student earns major NSF fellowship Susan Glairon Mon, 06/30/2025 - 17:33

Susan Glairon

Annette Thompson, a chemical engineering PhD student, has received a 2025 National Science Foundation Graduate Research Fellowship, a prestigious award that recognizes and supports outstanding students in a wide variety of science-related disciplines. Thompson is co-advised by Associate Professor Jerome Fox and Professor Michael Shirts.

This year, the National Science Foundation awarded Graduate Research Fellowships to 11 ��Ĵ�ý, College of Engineering and Applied Science students. Due to federal budget cuts, the program was reduced by 25 percent, with 1,500 fellowships awarded nationwide compared to 2,000 last year.

Fellows receive a three-year annual stipend of $37,000 and full coverage of tuition, fees and insurance, along with opportunities for international research and professional development that span five years.

What is your research focused on?

My research focuses on better understanding and redesigning the molecular “assembly lines” that cells use to make chemical building blocks, especially fatty acids. These natural systems rely on helper proteins to guide molecules through a series of enzymatic steps, but how these enzymes selectively interact with their partners is still not well understood.

I use computer-based tools—like simulations that predict how molecules move and interact over time, and models that estimate how changes in enzyme levels and behavior impact final yield—to study these systems and identify engineering targets for controlling product outcomes. By combining computational methods with experimental collaboration, my work aims to help create new biotechnologies that can produce a wider range of useful chemicals more efficiently than nature can on its own.

What are potential applications of your work?

My research could lead to more sustainable ways to make everyday products like medicines and fuels, without relying on petroleum-based processes. By making enzyme systems more precise and efficient, we can lower costs and create cleaner, greener manufacturing processes.

What does receiving this award mean to you?

Receiving this award is a huge honor. The support will allow me the flexibility to expand my research into new biosynthetic pathways and organisms, and to develop faster and better tools for characterizing new systems. I am deeply grateful to my advisors, Dr. Jerome Fox and Dr. Michael Shirts, whose support and expertise have been instrumental in shaping this work and making these collaborations possible.

Annette Thompson, a chemical engineering PhD student, has received a 2025 National Science Foundation Graduate Research Fellowship, for her research around the molecular “assembly lines” cells used to build chemicals like fatty acids.

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Two chemical engineering PhD students earn major NSF fellowships

Susan Glairon — Mon, 30 Jun 2025 19:49:34 +0000

Two chemical engineering PhD students earn major NSF fellowships Susan Glairon Mon, 06/30/2025 - 13:49

Annette Thompson's research could lead to more sustainable ways to make everyday products like medicines and fuels without petroleum-based processes; Nolan Petrich's work could help develop therapies that help repair or replace damaged tissues or organs by using the body’s healing abilities for intestinal diseases.

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Graduate Student Awards

Chemical engineering PhD student advancing polymer research with prestigious national defense fellowship

What does receiving the NDSEG fellowship mean to you?

Briefly describe your research and why it’s important.

Why does this research interest you?

How will the fellowship help advance your research?

What impact do you hope your research will have?

What advice would you give to other students interested in applying for competitive fellowships?

Is there anything else you'd like readers to know?

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PhD student Erin Dunphy honored with Ludo Frevel Scholarship

Tell me about your research

What does receiving the Ludo Frevel Crystallography Scholarship Award mean to you?

How will this scholarship support your research or academic goals?

What drew you to crystallography as a research focus?

What are you most excited to work on?

What are your future research or career goals?

How do you hope your work will contribute to the field?

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Bruce Kirkpatrick honored with Outstanding Dissertation Award

PhD, Biological Engineering, 2025

Dissertation Name

Defended

Associated lab

Current position

College of Engineering and Applied Science Outstanding Dissertation Award

Why did you choose CU ���Ĵ�ý for your graduate studies?

What does receiving this award mean to you?

Tell me about your dissertation research.

Why does this research topic interest you?

What applications could this research have in the future?

Why do you think your dissertation resonated with the award committee?

Who was particularly influential to your work?

What’s next?

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Anika Friedman recognized by American Chemical Society

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Chemical engineering PhD student earns major NSF fellowship

What is your research focused on?

What are potential applications of your work?

What does receiving this award mean to you?

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Two chemical engineering PhD students earn major NSF fellowships

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Why did you choose CU ��Ĵ�ý for your graduate studies?