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Associate Professor Marta Hatzell has been appointed interim deputy director of the Georgia Tech Strategic Energy Institute (SEI).

Hatzell currently leads the industrial decarbonization and clean catalysis initiative at SEI and holds joint appointments in the George W. Woodruff School of Mechanical Engineering and the School of Chemical and Biomolecular Engineering. Most recently, she led the Materials for Carbon-Neutral Fuel Production track at this year’s Energy Materials Day, which attracted over 400 participants from academia and industry. 

“Marta has been an outstanding addition to SEI’s initiative lead program, where her contributions have already made a significant impact. I am excited to see her further engage with the Georgia Tech energy community in this role,” said Christine Conwell, SEI interim executive director.

Hatzell’s research group focuses on exploring sustainable catalysis and separations to enable clean energy, water, and food production. She serves as the site principal investigator and research thrust leader for CASFER, the National Science Foundation Engineering Research Center (NSF-ERC) with funding of $26 million for advancing sustainable fertilizer production. She is also a principal investigator in the Department of Energy’s $100 million National Alliance for Water Innovation project. 

Hatzell is the recipient of the NSF Early CAREER Award for her work on distributed solar fertilizers and received the Gordon and Betty Moore Inventor fellowship to work on a low-cost, photocatalytic air-breathing system that converts air into liquid, ammonia-based fertilizer. She also received the 2020 Sloan Research Fellowship in Chemistry and the American Chemical Society’s (ACS) Sustainable Chemistry Lectureship Award in 2024. Hatzell serves as a senior editor of the ACS Energy Letters journal.

Before her role at Georgia Tech, she was a postdoctoral researcher in the Department of Materials Science and Engineering at the University of Illinois Urbana-Champaign. She holds a Ph.D. in mechanical engineering from Penn State University. 

“I’m looking forward to working with the SEI staff and faculty to continue to grow Georgia Tech’s impact on the rapidly changing energy sector,” says Hatzell.  

Associate Professor Matthew McDowell has been selected as the next Associate Chair for Research in the George W. Woodruff School of Mechanical Engineering. He will step into the role on January 1, 2025.

The Associate Chair for Research is responsible for working with the Woodruff School’s faculty to develop a strategic research plan for future growth and investments in the School, as well as identifying new research opportunities, helping to foster strategic relationships with government, industry, and foundations, and synergizing research efforts with other units in the College of Engineering and across the Institute.

“I am thrilled to be chosen for this role, and I look forward to working with the faculty, students, researchers, and staff of the Woodruff School to enhance and support our world-class research program,” said McDowell.

McDowell joined Georgia Tech in the fall of 2015 as an assistant professor with a joint appointment in the Woodruff School and the School of Materials Science and Engineering (MSE). He was named Carter N. Paden, Jr. Distinguished Chair earlier this year and serves as co-director of the Georgia Tech Advanced Battery Center (GTABC). Through this center, McDowell and Professor Gleb Yushin (MSE) are building community at the Institute, enhancing research and educational relationships with industry partners, and creating a new battery manufacturing facility on Georgia Tech’s campus.

“I am excited to work with Matt in advancing the research priorities and goals of the Woodruff School,” said Devesh Ranjan, Eugene C. Gwaltney Jr. School Chair and professor. “Through his exceptional leadership of the Georgia Tech Advanced Battery Center, Matt has demonstrated a deep commitment to excellence in scholarship and to fostering partnerships that drive innovative, collaborative research across the Institute. I am confident in the positive transformation he will bring to our program in this new role.”

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Johney Green Jr., M.S. ME 1993, Ph.D. ME 2000, has been chosen to serve as the new laboratory director for Savannah River National Laboratory (SRNL). A proud Yellow Jacket, Green received both his master’s and doctoral degrees in mechanical engineering from Georgia Tech and currently serves on the Strategic Energy Institute’s (SEI) External Advisory Board. He also served on the board of the George W. Woodruff School of Mechanical Engineering from 2017 to 2022.

“SRNL has truly found an exceptional leader in Johney. His vision and dedication are inspiring, and I am genuinely excited to see the remarkable contributions he will make in advancing SRNL,” said Christine Conwell, SEI interim executive director. “We look forward to his continued partnership with SEI and the positive impact he will bring to the energy community in 2025 and beyond.”

The Battelle Savannah River Alliance (SRNL’s parent organization) selected Green for this role, describing him as “a dynamic leader who brings deep, wide-ranging scientific expertise to this new position.” 

With an annual operating budget of about $400 million, SRNL is a multiprogram national lab leading research and development for the Department of Energy’s (DOE) Offices of Environmental Management and Legacy Management and the National Nuclear Security Administration’s weapons and nonproliferation programs. 

Green currently serves as associate laboratory director for mechanical and thermal engineering sciences at the National Renewable Energy Laboratory (NREL). In this position, he oversees a diverse portfolio of research programs including transportation, buildings, wind, water, geothermal, advanced manufacturing, concentrating solar power, and Arctic research. His leadership impacts a workforce of about 750 and involves managing a budget of more than $300 million.

At NREL, Green transformed the lab’s wind site into the innovative Flatirons Campus and transitioned the campus from a single-program wind research site to a multiprogram research campus that serves as the foundational experimental platform for the DOE’s Advanced Research on Integrated Energy Systems (ARIES) initiative.

"We are immensely proud to call Johney a Woodruff School alumnus. His achievements and service to Tech through advisory board engagement inspires us, and we are excited to see him step into this prestigious role at SRNL. We look forward to deepening our collaboration with him as he continues to make a powerful impact,” said Devesh Ranjan, Eugene C. Gwaltney, Jr. School Chair and professor in the Woodruff School.

Prior to his role at NREL, Green held several key leadership roles at Oak Ridge National Laboratory (ORNL). As director of the Energy and Transportation Science Division and group leader for fuels, engines, and emissions research, he managed a broad science and technology portfolio and user facilities that made significant science and engineering advances in building technologies; sustainable industrial and manufacturing processes; fuels, engines, emissions, and transportation analysis; and vehicle systems integration. While Green was the division director, ORNL developed the Additive Manufacturing Integrated Energy (AMIE) demonstration project, a model of innovative vehicle-to-grid integration technologies and next-generation manufacturing processes.

Early in his career, Green conducted combustion research to stabilize gasoline engine operation under extreme conditions. During the course of that research, he joined a team working with Ford Motor Co., seeking ways to simultaneously extend exhaust gas recirculation limits in diesel engines and reduce nitrogen oxide and particulate matter emissions. He continued this collaboration as a visiting scientist at Ford's Scientific Research Laboratory, conducting modeling and experimental research for advanced diesel engines designed for light-duty vehicles. On assignment to the DOE’s Vehicle Technologies Office, Green also served as technical coordinator for the 21st Century Truck Partnership. He also contributed to a dozen of ORNL's 150-plus top scientific discoveries.

Green was the recipient of a National GEM Consortium Master’s Fellowhip sponsored by Georgia Tech and ORNL, and he served as the National GEM Consortium chairperson from 2022-2024. He is a Fellow of the American Association for the Advancement of Science and an SAE International Fellow. He has received several awards during his career and holds two U.S. patents in combustion science. 

Tequila A.L. Harris, a professor in the George W. Woodruff School of Mechanical Engineering at Georgia Tech, leads energy and manufacturing initiatives at the Strategic Energy Institute. Her research explores the connectivity between the functionality of nano- to macro-level films, components, and systems based on their manufacture or design and their life expectancy, elucidating mechanisms by which performance or durability can be predicted. She uses both simulations and experimentation to better understand this connectivity.

By addressing complex, fundamental problems, Harris aims to make an impact on many industries, in particular energy (e.g., polymer electrolyte membrane fuel cells), flexible electronics (e.g., organic electronics), and clean energy (e.g., water), among others. 

Harris has experience in developing systematic design and manufacturing methodologies for complex systems that directly involve material characterization, tooling design and analysis, computational and analytical modeling, experimentation, and system design and optimization. Currently, her research projects focus on investigating the fundamental science associated with fluid transport, materials processing, and design issues for energy/electronic/environmental systems. Below is a brief Q&A with Harris, where she discusses her research and how it influences the energy and manufacturing initiatives at Georgia Tech.

• What is your field of expertise and at what point in your life did you first become interested in this area?

In graduate school, I aimed to become a roboticist but shifted my focus after realizing I was not passionate about coding. This led me to explore manufacturing, particularly scaled manufacturing processes that transform fluids into thin films for applications in energy systems. Subsequently, my expertise is in coating science and technology and manufacturing system development. 

• What questions or challenges sparked your current energy research? What are the big issues facing your research area right now?

We often ask how we can process materials more cost-effectively and create complex architectures that surpass current capabilities. In energy systems, particularly with fuel cells, reducing the number of manufacturing steps is crucial, as each additional step increases costs and complexity. As researchers, we focus on understanding the implications of minimizing these steps and how they affect the properties and performance of the final devices. My group studies these relationships to find innovative manufacturing solutions. A major challenge in the manufacture of materials lies in scaling efficiently while maintaining performance and keeping costs low enough for commercial adoption. This is a pressing issue, especially for enabling technologies such as batteries, fuel cells, and flexible electronics needed for electric vehicles, where the production volumes are on the order of billions per year. 

• What interests you the most in leading the research initiative on energy and manufacturing? Why is your initiative important to the development of Georgia Tech’s energy research strategy?

What interests me most is the inherent possibility of advancing energy technologies holistically, from materials sourcing and materials production to public policy. More specifically, my interests are in understanding how we can scale the manufacture of burgeoning technologies for a variety of areas (energy, food, pharmaceuticals, packaging, and flexible electronics, among others) while reducing cost and increasing production yield. In this regard, we aim to incorporate artificial intelligence and machine learning in addition to considering limitations surrounding the production lifecycle. The challenges that exist to meet these goals cannot be done in a silo but rather as part of interdisciplinary teams who converge on specific problems. Georgia Tech is uniquely positioned to make significant impacts in the energy and manufacturing ecosystem, thanks to our robust infrastructure and expertise. With many manufacturers relocating to Georgia, particularly in the "energy belt" for EVs, batteries, and recycling facilities, Georgia Tech can serve as a crucial partner in advancing these industries and their technologies.

• What are the broader global and social benefits of the research you and your team conduct on energy and manufacturing?

The global impact of advancing manufacturing technologies is significant for processing at relevant economy of scales. To meet such demands, we cannot always rely on existing manufacturing know-how.  The Harris group holds the intellectual property on innovative processes that allow for the faster fabrication of individual or multiple materials, and that exhibit higher yields and improved performance than existing methods. Improvements in manufacturing systems often result in reduced waste, which is beneficial to the overall materials development ecosystem. Another global and societal benefit is workforce development. The students on my team are well-trained in the manufacture of materials using tools that are amenable to the most advanced and scalable manufacturing platform, roll-to-roll manufacturing, with integrated coating and printing tools. This unique skill set equips our students to thrive and become leaders in their careers.

• What are your plans for engaging a wider Georgia Tech faculty pool with the broader energy community?

By leveraging the new modular pilot-scale roll-to-roll manufacturing facility that integrates slot die coating, gravure/flexography printing, and inkjet printing, I plan to continue reaching out to faculty and industrial partners to find avenues for us to collaborate on a variety of interdisciplinary projects. The goal is to create groups that can help us advance materials development more rapidly by working as a collective from the beginning, versus considering scalable manufacturing pathways as an afterthought. By bringing interdisciplinary groups (chemists, materials scientists, engineers, etc.) together early, we can more efficiently and effectively overcome traditional delays in getting materials to market or, worse, the inability to push materials to market (which is commonly known as the valley of death). This can only be achieved by dismantling barriers that hinder early collaboration. This new facility aims to foster collaborative work among stakeholders, promoting the integrated development and characterization of various materials systems and technologies, and ultimately leading to more efficient manufacturing practices.

• What are your hobbies? 

I enjoy cooking and exploring my creativity in this space by combining national and international ingredients to make interesting and often delicious fusion cuisines. I also enjoy roller skating, cycling, and watching movies with my family and friends. 

• Who has influenced you the most?

From a professional standpoint, my research team influences me the most. After I present them with a problem, they are encouraged and expected to think beyond our initial starting point.  This ability to freely think and conceive of novel solutions sparks many new ideas on which to build future ideas. The best cases have kept me up at night, inspiring me to think about how to approach new problems and funding opportunities. I carry their experiences and challenges with me. Their influence on me is profound and is fundamentally why I am a professor.

As head of the Department of Energy’s (DOE’s) Office of Science, the nation’s largest federal sponsor of physical sciences research, Under Secretary Geri Richmond understands the vital role of higher education in advancing U.S. science and innovation. On Monday, Nov. 18, she visited Georgia Tech with Chief of Staff in the Office of the Under Secretary for Science and Innovation Ariel Marshall, Ph.D. Chem 14, to meet with students and faculty and discuss future opportunities for collaboration.  

During the visit, Richmond and Marshall toured Dr. Thomas Orlando’s electron and photo induced chemistry on surfaces lab; the Invention Studio; Dr. Akanksha Menon’s water-energy research lab; and the AI Maker Space.  

Richmond also joined the Women+ in Chemistry student group for a roundtable discussion. An advocate for underrepresented groups in STEM fields, Richmond is the founding director of the Committee on the Advancement of Women Chemists (COACh). COACh is a grassroots organization dedicated to ensuring equal opportunities for all in science. 

Georgia Tech’s longstanding partnership with the DOE is centered on research and technology development aimed at advancing energy systems and promoting sustainability. The Institute plays a key role in the DOE’s national initiatives, contributing to transformative work in energy efficiency, renewable energy, nuclear power, and environmental sustainability. Through joint research programs, grants, and initiatives, Georgia Tech continues to drive innovation and push the boundaries of energy solutions for a sustainable future.  

The Strategic Energy Institute and the Energy, Policy, and Innovation Center at Georgia Tech are proud to announce the winners of the James G. Campbell Fellowship and Spark Awards for 2024. 

Michael Biehler, a fifth-year Ph.D. student in the H. Milton Stewart School of Industrial and Systems Engineering, has been selected as the recipient of the 2024 James G. Campbell Fellowship. The Fellowship is an annual award given to a Georgia Tech graduate student studying renewable energy systems. Candidates are nominated by their advisors in recognition of their exceptional academic achievements in the field of renewable energy.

Biehler’s research leverages multi-modal machine learning to tackle critical challenges in manufacturing, such as enhancing energy efficiency in manufacturing processes. He is advised by Jianjun (Jan) Shi, Carolyn J. Stewart Chair and Professor in the School of Industrial and Systems Engineering. 

“I consider this award an incredible honor, and the support means a lot to me, especially with the recent arrival of our second daughter—it will make a significant difference for us,” says Biehler. 

The Annual Spark Award recognizes current graduate students who have exhibited outstanding leadership in promoting student engagement with energy research at Georgia Tech, with evidence of broader impacts and service/leadership. The Spark Award recipients for 2024 include Georgia Tech graduate students Richard Asiamah, Erik Barbosa, Keun Hee Kim, Sanggyun Kim, and Erin Phillips. 

Richard Asiamah is a third-year Ph.D. student in the School of Electrical and Computer Engineering (ECE). His research focuses on power systems optimization, emphasizing the efficient integration of renewable energy resources into the electricity grid. Asiamah has recently worked as a graduate electrical engineering intern at the National Renewable Energy Laboratory in Golden, Colorado, and is currently serving as the president of the ECE Graduate Students’ Organization. 

Erik Barbosa is pursuing a doctorate in mechanical engineering and works under Akanksha Menon, assistant professor in the Woodruff School of Mechanical Engineering. His work in the Water Energy Research Lab focuses on utilizing inorganic salt hydrates to develop thermochemical energy storage, ranging from the material level to system scale, to decarbonize heat for building applications. Barbosa has been actively engaged with mentoring undergraduate students and high schoolers by exposing them to innovative technologies that decarbonize energy. 

Keun Hee Kim is a Ph.D. candidate in the Woodruff School. Kim’s research focuses on developing solid polymer electrolytes and artificial interlayers for lithium metal batteries, and synthesizing oxygen evolution reaction and oxygen reduction reaction catalyst materials for proton exchange membrane fuel cells and water electrolyzers.

Sanggyun Kim​ is a fourth-year Ph.D. student in materials science and engineering, advised by Juan-Pablo Correa-Baena, assistant professor in the School of Materials Science and Engineering. Kim’s research focuses on understanding the complex interfacial interactions between hybrid organic-inorganic halide perovskite films and newly designed charge transport layers in perovskite solar cells (PSCs). His goal is to drive progress in solar energy technology by integrating novel polymer- and molecule-based interlayers, improving the efficiency and stability of PSCs to support more sustainable photovoltaic solutions.

Erin Phillips is a doctoral student in the School of Chemistry and Biochemistry. Her research addresses difficulties associated with lignin valorization, which includes controlling the isolation of lignin from the original irregular lignocellulose structure and depolymerizing lignin into aromatic monomer units via mechanocatalysis. These aromatics can further be valorized as renewable sources for the creation of biofuels and other green chemicals. Phillips is currently serving as the president of the Technical Association of the Pulp and Paper Industry (TAPPI) student chapter at Georgia Tech. 

The aviation industry’s commitment to meaningful carbon reduction underscores the need for investing in Sustainable Aviation Fuel (SAF), which provides the most promising solution to achieving net-zero carbon by 2050. According to the International Air Transport Association (IATA), with the right policy measures and financial instruments in place, SAF could help the industry achieve 65% of this reduction. As a key transportation center in the U.S., the Southeast holds immense potential to become a hub for SAF production and adoption.

This prospect was the focus of a recent workshop organized by three Georgia Tech units – the Ray C. Anderson Center for Sustainable Business and its initiative, the Drawdown Georgia Business Compact; the School of Public Policy; and the Strategic Energy Institute; along with the U.S. Department of Energy Bioenergy Technologies Office. The workshop gathered together multiple stakeholder groups representing federal, state, and local government, industry, academia, and the aviation sector to chart a path forward for the Southeast.

Read more at the Drawdown GA Business Compact Website