Hyundai Motor Group and the Georgia Institute of Technology have announced an expansion of their growing collaboration to advance hydrogen-powered transportation, deepen applied research and education, and accelerate the use of zero-emissions vehicles in Georgia. 

Building upon a multifaceted relationship, the two are bringing hydrogen fuel cell vehicles and fueling infrastructure to campus — turning Georgia Tech into one of the nation’s most prominent campus-based examples for hydrogen mobility.

“Hyundai Motor Group is proud to strengthen our collaboration with Georgia Tech as we work together to accelerate the future of clean mobility. Georgia Tech’s leadership in innovation and its commitment to developing the next generation of problem-solvers make it a natural partner in advancing technologies,” said Ken Ramírez, executive vice president and head of Global Energy and Hydrogen Business at Hyundai Motor Group. “By combining the university’s excellent research with Hyundai’s global experience, we are creating the foundation for real-world solutions that will help drive the energy transition and inspire future mobility leaders.” 

Ramírez is also a 1991 Georgia Tech graduate and a member of the Georgia Tech Advisory Board. 

“It’s very fulfilling to donate a handful of our NEXO fuel cell SUVs as part of our expanding relationship with Georgia Tech. Hydrogen-powered NEXO fuel cell vehicles will immediately serve to expand the clean mobility footprint on campus while providing real-world experiences with the cutting edge of zero-emissions transportation technology,” said Randy Parker, president and CEO, Hyundai Motor North America.

“Georgia Tech has a long history of working with industry to move breakthrough technologies from the lab into the real world. By expanding our work with Hyundai, we’re advancing hydrogen research, reducing emissions on our campus, and strengthening Georgia’s role in the future of clean mobility," Georgia Tech President Ángel Cabrera said.

How the Partnership Drives Hydrogen Innovation and Research

The partnership includes the donation of four Hyundai NEXO fuel cell electric SUVs by Hyundai Motor North America and a hydrogen electrolyzer project, which will be installed at Georgia Tech’s North Avenue Research Area, positioning Tech as one of the most visible real-world test beds for hydrogen mobility in the U.S.

The vehicles and infrastructure will support campus operations and interdisciplinary research. Key areas of focus include:

• Engineering: Exploring hydrogen-based systems and mobility solutions.
• Sustainability: Assessing the environmental benefits of hydrogen technologies.
• Energy systems: Understanding the integration of hydrogen fuel cells into current infrastructure.
• Public policy: Evaluating the regulatory and social implications of hydrogen adoption.

This initiative connects Georgia Tech’s research enterprise with campus operations, using the Institute as a living laboratory for clean transportation technologies. Faculty and students will study:

• Real-world performance of hydrogen technology.
• Infrastructure requirements for large-scale deployment.
• Environmental impacts of hydrogen energy systems.

Insights gathered from this initiative aim to inform and accelerate the widespread use of hydrogen technology in campuses, fleets, cities, and freight corridors. The initiative also supports Georgia Tech’s strategic plan, which includes the goal of expanding the use of zero-emissions vehicles powered by sustainable energy sources.

Why Is the Partnership with Georgia Tech Key to Hyundai Motor Group’s Vision? 

The collaboration between Hyundai and Georgia Tech is a testament to the power of aligning academic expertise with corporate innovation. Beyond hydrogen energy, the partnership seeks to advance innovation in the areas of:

• Autonomous driving
• Electric vehicle (EV) batteries
• Charging infrastructure
• Materials science
• Cybersecurity

In addition, Hyundai’s presence in Georgia underscores its commitment to the region. Georgia is home to the Hyundai Motor Group Metaplant America and also serves as a hub for zero-emissions transportation through HTWO Logistics, a clean logistics partnership that operates Hyundai XCIENT fuel cell heavy-duty trucks in logistics operations near Savannah. The collaboration with Georgia Tech builds on this regional foundation, reinforcing the link between education, research, and Hyundai's long-term goal of achieving carbon neutrality by 2045.

What’s Next for the Partnership?

The partnership between Hyundai and Georgia Tech represents more than an investment in research. It’s a shared effort to lead the next generation of mobility advancements. Additional announcements about the partnership’s research projects, educational programs, and vehicle deployment are expected in the coming months.

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Written by: Shweta Ram and Seungho Lee

What does it mean to design systems that endure even after major disruptions? This question framed the 2026 Brook Byers Institute for Sustainable Systems (BBISS) Sustainability Showcase, where conversations over two days spanned the Georgia coast, wildfire modeling, AI data centers, infrastructure, community engagement, and the joy of working for a more sustainable and resilient world. Across disciplines and scales, a unifying theme emerged: resilience is not a single solution. It is a systems-level challenge requiring integration across science and technology, policy, communities, and human experience.

From Coastlines to Communities

The showcase opened with a keynote from President Emeritus G. Wayne Clough on wildlife management and resiliency along Georgia’s coast. The conversation that followed between Clough and BBISS Executive Director Beril Toktay highlighted the interconnection between public policy, wilderness conservation, community leadership, and scientific research. The session highlighted not only the urgency of protecting fragile ecosystems, but also that resilience works best when it is community-focused and community-driven.

Subsequent panels continued this systemic perspective. Sessions on community engagement, biotechnology-derived, climate-resilient plants, the flood resilience of Georgia coastal communities, wildfire prediction and prevention, and infrastructure resilience analytics all emphasized that resilience depends on the synthesis of many disciplines.

Across sessions, researchers emphasized that infrastructure resilience must include governance frameworks informed by good science, community engagement based on trust, and sustained collaboration that seeks to constantly improve the science, policy, and stakeholder relationships. The researchers demonstrated that they understand their role to be greater than merely modeling risk, but as collaborators who translate research into practical solutions that communities can adopt, maintain, and trust.

AI Data Centers: A New Resilience Frontier

Day two shifted attention to data centers, which are emerging as a critical resilience frontier. As artificial intelligence systems scale rapidly, so does the infrastructure that powers them, as well as the growing realization that digital systems are physical systems. Conversations examined the feedback loops that play a significant role in determining environmental impacts, such as chip architecture, AI workloads, data center sustainability, appropriate AI usage, and who makes the decisions on data center infrastructure development. 

One of the most fascinating sessions came from Alexandria Smith, assistant professor in the School of Music at Georgia Tech. She presented an artistic yet algorithmic composition that sonified data from AI data centers. Through translating kilowatt-hour usage and interconnection data into immersive soundscapes, she reframed data centers not as static input-output machines, but as adaptive, living systems. Drawing inspiration from Physarum polycephalum, a slime mold without a brain or nervous system known for its innate problem-solving abilities, she invites the listener to imagine infrastructure that senses, adapts, and self-optimizes.

Campus as a Living Laboratory

In her session, Professor Jennifer Chirico, associate vice president of Sustainability, highlighted Georgia Tech’s 2024 Climate Action Plan, focusing on building energy efficiency, renewable integration, materials management, and mobility transitions. The plan frames the Georgia Tech campus as a test bed for resilience strategies — an ecosystem where research, operations, and policy intersect. Chirico highlighted several examples where the alignment between research and implementation was essential in moving projects from modeling to pilot projects to sustained institutional change.

Finding Joy in Climate Action

Rebecca Watts Hull, Matthew Realff, and Christie Stewart led an interactive discussion inspired by Ayana Elizabeth Johnson’s framework for accelerating long-term climate action. Participants were asked three simple questions: What are you good at? What work needs doing? What brings you joy? Sustainability and climate research are fields often defined by serious urgency, crisis narratives, and burnout. This session offered a personal framework for resilience where emotional sustainability, professional fulfillment, and joy matter just as much as the motivation to drive a mission ever forward.

Building a Shared Vision

The Sustainability Showcase concluded with a facilitated visioning session led by Kristin Janacek, associate director for Interdisciplinary Research Impact, and Beril Toktay. In small groups, leaders, researchers, and community members worked to define what resilience looks like for them.

After the conversations, several themes emerged:

• Resilience must move from research to practical and community-based solutions to sustained action.
• Networks create opportunity but require long-term stewardship to endure.
• Choosing the right metrics to measure resilience will galvanize efforts to strengthen it.
• Community capacity is at least as important as built infrastructure.

Over two days, it became clear that Georgia Tech is not approaching resilience as a narrow technical problem. It is approaching it as a systems challenge — one that spans coastlines, campuses, disciplines, data centers, the Appalachian Mountains, data models, the arts, and human relationships. Designing systems that endure requires more than innovation. It requires collaboration, stewardship, and a shared commitment to long-term impact. The conversations launched at this year’s BBISS Sustainability Showcase laid the foundation for continued coordination and ambitious action in the months ahead.

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New work from Georgia Tech is showing how a simple glass of wine can serve as a powerful gateway for understanding advanced research and technologies.

The project, inspired by an Atlanta Science Festival event hosted by School of Chemistry and Biochemistry Assistant Professor Andrew McShan, develops an innovative outreach and teaching module around nuclear magnetic resonance (NMR) techniques, and is designed for easy adoption in introductory chemistry and biochemistry courses. 

Published earlier this year in the Journal of Chemical Education, the study, “Automated Chemical Profiling of Wine by Solution NMR Spectroscopy: A Demonstration for Outreach and Education” was led by a team from the School of Chemistry and Biochemistry including lead author McShan, Ph.D. students Lily Capeci, Elizabeth A. Corbin, Ruoqing Jia, Miriam K. Simma, and F. N. U. Vidya, Academic Professional Mary E. Peek, and Georgia Tech NMR Center Co-Directors Johannes E. Leisen and Hongwei Wu.

“NMR is one of the most widely used analytical tools in chemistry and the life sciences, and Georgia Tech hosts one of the most cutting-edge NMR centers in the world,” McShan says. “Our study shows that you don’t need advanced training to appreciate how powerful tools like NMR work and how those tools are used in research.”

All materials, tutorials, and data are freely available via online tutorials and a YouTube video, enabling educators to replicate or adapt the activity even in settings with limited access to NMR facilities.

Wine sleuthing at the Atlanta Science Festival

From families with K-12 students to undergraduates to adults with no prior chemistry experience, nearly 130 visitors explored wine chemistry at the Georgia Tech NMR Center during the Atlanta Science Festival event. With McShan’s guidance, they identified and quantified more than 70 chemical components that influence wine taste, aroma, and quality by analyzing the chemical composition, structure, and dynamics of molecules.

Taking on the role of wine investigators (a real-world application of NMR), the group investigated examples of wine fraud, learning to identify harmful additives like methanol, antifreeze, and lead acetate – additives that played roles in both historical and modern wine scandals.

“By connecting the science to something familiar like wine, we were able to spark curiosity and excitement across age groups,” says McShan. “This a framework for how complex analytical techniques can be made inclusive, interactive, and inspiring whether in the classroom or at a science festival.”

Science for all

The study underscores the potential of NMR and other powerful technologies as outreach opportunities – from engaging the public to better teaching undergraduate students.

“After the event, adults said they learned how chemical composition affects wine characteristics and how NMR is used in research and industry,” McShan says. “Younger participants learned key concepts about wine composition and found benefits from the sensory elements, like watching the spectrometer in action.”

They aim to use these takeaways to continue developing outreach tools. “My end goal is to develop NMR into a practical teaching tool by grounding the technique in real-world examples,” adds McShan. “Using this approach is a clear avenue to introducing the general public to the world-class instruments used by researchers at Georgia Tech and exposing undergraduate students to the powerful analytical techniques they are likely to encounter throughout their careers.”

Funding: National Science Foundation

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Jennifer Chirico leads the energy and infrastructure initiative at Georgia Tech’s Strategic Energy Institute. She is a longtime Yellow Jacket, bringing more than 25 years of sustainability experience as the inaugural associate vice president of Sustainability at Georgia Tech. In this role, she oversees the Office of Sustainability and works across the Institute on emissions reductions, clean energy, water management, circular economy, sustainable technology, and strategy.

Chirico led the development and publication of the Institute’s first Climate Action Plan and co-led Tech’s sustainability plan, Sustainability Next. She is LEED Green Associate (Leed GA) accredited and holds certifications in the Carbon Disclosure Project, the Global Reporting Initiative, WaterSense, climate action planning, and Home Energy Survey Professional.

She holds a Ph.D. in public policy from Georgia Tech, a master’s in public health with a major in environmental health, and a bachelor’s degree in management from Georgia Tech. She has published books and written numerous chapters on sustainability related to systems thinking, net zero strategies, adaptive management, and the United Nations Sustainable Development Goals on leadership for the collective well-being.

Below is a brief Q&A with Chirico in which she discusses her focus areas and how her work at Georgia Tech influences the energy and infrastructure initiative here.

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

My field of expertise is sustainability, with a focus on the intersection of environmental, social, and economic systems. Although I began my career in finance, I discovered my passion for sustainability during a year I spent working abroad in New Zealand in 2000. That experience opened my eyes to the importance of balancing economic development with environmental stewardship and social responsibility. When I returned to the United States, I pursued a master’s degree in environmental health, followed by a Ph.D. in environmental policy. Over the past 25 years, I’ve dedicated my career to advancing sustainability and creating meaningful impacts. I continue to be inspired by the tangible, positive results that emerge when organizations integrate sustainability principles into their decision-making.

• What questions or challenges sparked your current work at Georgia Tech? What are the big issues facing the campus infrastructure right now as it relates to energy?

One of the most pressing challenges today is strengthening resilience for our infrastructure, well-being, and natural resources. As our environment continues to change, the ability to both mitigate impacts and adapt effectively is essential to our success. In my work, I am committed to advancing a healthier, safer, and more sustainable campus. Much of my work focuses on planning, reporting, and guiding efforts to build a stable, reliable, and clean energy infrastructure. A major part of this involves balancing firm energy sources with intermittent renewable sources in a way that ensures both reliability and sustainability. Georgia Tech has already made meaningful progress by installing over 1 megawatt of solar capacity and piloting the Stryten battery storage system. These projects demonstrate what is possible. We still have a long way to go to reduce our emissions and scale clean energy solutions across campus. Continuing to strengthen our energy resilience and expand renewable integration will be critical to meeting our long‑term goals.

• What interests you the most about leading the energy and infrastructure initiative? Why is your initiative important to Georgia Tech’s energy goals? 

What interests me most is the opportunity to collaborate with some of the nation’s top energy researchers to identify the most resilient, scalable, and forward‑thinking energy solutions for our campus. I’m particularly passionate about bridging the gap between research and operations to support turning innovative work into tangible, real‑world applications that strengthen Georgia Tech’s infrastructure. Building strong partnerships across academics, operations, and industry is central to this effort. When these groups work together, we can accelerate progress, pilot new technologies, and create a living-learning campus that demonstrates what a resilient, low‑carbon future can look like.

• What are the broader regional, global, and social benefits of the energy and infrastructure initiative at Georgia Tech?

It creates benefits that reach far beyond our campus. By implementing clean, resilient energy systems, we contribute to regional progress in the Southeast. Our campus can serve as a model and test bed, demonstrating scalable solutions and sharing best practices with peer institutions, local governments, and industry partners. Globally, our research and operational innovations support the broader transition to cleaner, more reliable energy systems. And socially, these efforts promote healthier communities, reduce environmental burdens, and help prepare a skilled workforce for the rapidly growing energy sector.

• What are your hobbies? 

My favorite hobbies are hiking, reading, yoga, and paddleboarding. I also love spending time in nature and with family and friends.

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An estimated 4 million Americans have glaucoma, a group of eye diseases that can lead to irreversible blindness. Now, Georgia Tech is home to a Glaucoma Research Fund that will support cutting-edge work to understand and advance treatments for the disease.

The new initiative was sparked by ongoing research at Georgia Tech — and a Yellow Jacket connection: when Postdoctoral Research Fellow Hannah Youngblood’s work on exfoliation glaucoma (XFG) was featured by the BrightFocus Foundation, it caught the attention of Jennifer Rucker, an Alabama resident who was diagnosed with XFG several years ago.

Excited that the research could change outcomes for people like her — and proud that it’s happening at her husband Philip Rucker’s, EE 72, alma mater — Jennifer Rucker reached out to Youngblood and her advisor, School of Chemistry and Biochemistry Professor and Kelly Sepcic Pfeil, Ph.D. Chair Raquel Lieberman. 

“As the wife of a Georgia Tech graduate and an individual with pseudoexfoliation glaucoma, I was inspired to support the scientists whose efforts may help me and others,” Jennifer Rucker says. What followed was a meaningful dialogue and a shared sense of purpose — and the creation of the Georgia Tech Glaucoma Research Fund (Wreck Glaucoma! Fund). 

“It meant so much that Jennifer took the initiative to reach out to learn more about our research,” says Lieberman. “Moments like this remind me how deeply meaningful it is to connect with people in the broader community who are navigating glaucoma. Opportunities for such personal connections are rare, but they inspire and further motivate us to achieve our lab’s mission to improve the lives of individuals suffering from blindness diseases.”

A Personal Connection

Youngblood’s interest in glaucoma research also stems from a personal connection: her father was diagnosed with glaucoma as a young adult. Now, Youngblood studies the genetic and molecular factors behind XFG in the Lieberman research lab. 

“XFG is an aggressive form of the disease with no known cure,” Youngblood says. While scientists know that XFG is the result of abnormal accumulation of proteins in the eye, current treatments only address symptoms rather than treating the root cause of the disease.

“We know XFG is driven by protein buildup, but we still don’t know why it happens,” she explains. “My work studying specific genetic variants aims to uncover this.” 

The Genetics of Glaucoma

In particular, Youngblood is researching the role of LOXL1, a protein that plays a role in soft tissue throughout the body, including the eyes.

“Research has shown that people with variants in the genes responsible for this protein are more likely to have XFG,” she says. “That made me curious to see if the variants might be impacting the structure of the LOXL1 protein itself and how those variants might lead to disease.”

Youngblood is currently testing her theory in the lab. “My hope is that new insight into proteins like LOXL1 will bring us closer to treatments that address XFG at its source,” she says. “The new Georgia Tech Glaucoma Research Fund is a tremendous step forward in making that hope a reality.”

Support the Georgia Tech Glaucoma Research Fund

Please visit the Glaucoma Research Fund support page to give to this specific program. To discuss additional philanthropic opportunities, please contact the College of Sciences Development Team: development@cos.gatech.edu

Your investment ensures that these scholars and researchers have world-class resources, facilities, and mentors to excel in this critical work. Thank you for helping us shape the future.

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“Map region. Graphic clickable. Blank.”

That’s usually the only information Brandon Biggs receives from digital maps.

Biggs is a human-centered computing Ph.D. student in Georgia Tech’s School of Interactive Computing. He is almost totally blind due to Leber’s Congenital Amaurosis (LCA), a rare degenerative eye disorder affecting about one in 40,000 people.

Based on his experience, Biggs argues that most digital maps aren’t accessible to people who are blind. Even worse, he said, the needs of the blind are usually overlooked.

“When I started research on maps, I had never viewed a weather, campus, or building map, so I didn’t realize the amount of information maps contain,” Biggs said. “How do you represent shapes, orientation, and layout through audio and translate that into a geographic map?”

To answer these questions, Biggs founded XRNavigation, a company focused on developing accessible digital tools. Its flagship product, Audiom, is a cross-sensory map that people can see and hear through text.

“Sighted people view about 300 maps per year, while blind people view fewer than one,” he said. “Blind people don’t view maps; it’s not part of their lives.

“I want to ensure that for blind users, digital maps are no longer just ‘blank.’  They receive the information they need to know to navigate in this world and become more autonomous.”

Organizations that need to include accessible maps in their digital spaces can integrate Audiom into their website or app. 

Georgia Tech recently became one such organization and used Audiom to introduce the first fully accessible digital campus map.

Professor Bruce Walker advises Biggs in Walker’s Sonification Lab, which designs auditory displays for technologies.

“Brandon has the perfect and unique blend of technical skills, research savvy, innovativeness, lived experience, and never-stop attitude to tackle this problem while impacting and improving many lives,” Walker said.

Defining Accessibility

Biggs said most maps limit accessibility features to turn-by-turn directions, tables, or other kinds of alternative text that disregard spatial information. The ability to communicate spatial information distinguishes Audiom.

“According to Web Content Accessibility Guidelines (WCAG), all non-text content — like maps — must include a text alternative with an equivalent purpose,” Biggs said. “But what does ‘equivalent purpose’ mean for geographic maps?

“We argue that every single map, regardless of what it’s showing, communicates general spatialized information and relationships.”

Audiom also prioritizes the information that’s most important to blind users, including sidewalks and buildings.

“There’s a lot of information blind people just don’t get on maps but desperately need,” he said. “They couldn’t care less about the roads. They might need the road name, but they really need the sidewalks.

“If a blind person made a map, they might not even add the roads. And then they would add in the location of doorways, a critical detail that sighted people completely leave out.”

Biggs’s work is already gaining national recognition. XRNavigation was recently one of three companies selected by the Global Accessibility Awareness Day (GAAD) Foundation for a 2025 Gaady Award, which honors work being done to make digital technologies more accessible.

Past and present winners of Gaady Awards range from tech startups to major brands like T-Mobile.

Biggs will accept the award during a banquet on Thursday in San Francisco.

Today, Velocity Startups joins Georgia Tech’s comprehensive commercialization ecosystem, solidifying the Institute’s role as a national leader and premier hub for research commercialization and startup growth. Velocity Startups serves as a bridge between early-stage startup founders who are focused on scaling their businesses and readying themselves for late-stage accelerators such as the Advanced Technology Development Center (ATDC), Engage, Fusen, and Atlanta Tech Village within the City of Atlanta. 

To support emergent startups, the early-stage accelerator will establish a collaborative facility at The Biltmore in Atlanta’s Tech Square, the national innovation district and dedicated area in the city that fosters community growth and meaningful innovation at the heart of the city’s tech scene. 

“Atlanta is where innovation becomes opportunity, and Velocity Startups will make that journey even faster,” said Donnie Beamer, senior technology advisor in the Atlanta Mayor’s Office of Technology and Innovation. “By connecting entrepreneurs to the critical resources they need to scale, we are fueling more startups, creating more jobs, and driving economic growth. Ultimately, this will secure Atlanta’s place as a top global destination for innovation, investment, and entrepreneurial success.”

As an early-stage accelerator, Velocity Startups provides resources — including mentorship support, space, tools, networks, and infrastructure — to Georgia Tech students, faculty, researchers, and the greater Atlanta community, bridging the gap from spinoff to viable startup. At Georgia Tech, many startups that complete the CREATE-X Startup Launch program and present at the Demo Day event will gain access to Velocity Startups. The accelerator will also offer strategic programming, funding, and access to Georgia Tech’s research resources and serve as a coordinating entity for Metro Atlanta’s entrepreneurial ecosystem, engaging more than 50 colleges and advocating for policies that support startup success. 

“Velocity Startups represents a pivotal step in bringing together the resources, expertise, and entrepreneurial spirit within our ecosystems as we look to further establish Atlanta as a top national tech hub. By uniting these elements, Velocity Startups will help startups scale from their first customer to long-term growth,” said Raghupathy “Siva” Sivakumar, vice president of commercialization and chief commercialization officer at Georgia Tech and president of Georgia Advanced Technology Ventures. “This accelerator enables the communities at Georgia Tech and beyond to translate groundbreaking research into high-impact ventures.”

Velocity Startups is a subsidiary of Georgia Advanced Technology Ventures and will operate in partnership with the City of Atlanta. A national search is currently underway for a director to lead the accelerator. 

For additional information about Velocity Startups, visit commercialization.gatech.edu/velocity.

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The brain is the most intricate system known to science — billions of cells forming dynamic networks that allow us to think, feel, move, and adapt. Yet despite decades of research, much about how the brain works remains a mystery. At the same time, neurological and neuropsychiatric conditions are on the rise, affecting more than one-third of the global population and costing trillions in healthcare and lost productivity.

Understanding the brain is key to unlocking human health and flourishing. The need has never been more urgent, but this challenge is too vast for any single discipline to solve alone.

That’s why Georgia Tech recently launched the Institute for Neuroscience, Neurotechnology, and Society (INNS). A step toward a more connected, collaborative future, INNS brings together experts from across Georgia Tech’s seven colleges and the Georgia Tech Research Institute (GTRI) to study the brain in ways that connect scientific discovery with technological innovation and real-world societal needs.

INNS supports research that crosses traditional academic boundaries. As an Interdisciplinary Research Institute (IRI), it builds community, fosters collaboration, and fills critical gaps in education, professional development, and research infrastructure.

“Georgia Tech has a long-standing culture of interdisciplinary collaboration — it’s in our DNA,” says INNS Executive Director Chris Rozell. Rozell also serves as Julian T. Hightower Chaired Professor in the School of Electrical and Computer Engineering. “INNS builds on that strength to create a space where breakthroughs in neuroscience and neurotechnology can move from lab to life, impacting real people in real ways.”

A Community Built to Collaborate

INNS is home to a growing network of faculty, students, and research centers spanning the full spectrum of Georgia Tech’s research expertise. This diversity is not just a feature, it’s the foundation.

That foundation was laid over decades of growth, vision, and grassroots momentum. Georgia Tech welcomed its first neuroscience-focused faculty member in 1990, sparking a steady expansion of brain-related research across campus. As more faculty joined and new focus areas emerged, a vibrant, cross-disciplinary community began to take shape.

In 2014, that community organized under the name GT Neuro, a grassroots initiative that united researchers who shared a passion for understanding the brain. This collective energy led to new educational programs, including the launch of Georgia Tech’s undergraduate neuroscience major in the College of Sciences.

“Our undergraduate students absolutely love teaching others about Neuroscience,” said Christina Ragan, director of Outreach for the Undergraduate Neuroscience Program and senior academic professional in the School of Biological Sciences. “I'm really excited to explore ways for INNS to connect our neuroscience community at Tech with the public.”

By 2023, the Neuro Next Initiative launched to bring together leaders from across campus and chart a strategic path forward — the result of nearly two years of community-driven planning to formalize and expand Georgia Tech’s neuroscience ecosystem. 

“The launch of INNS has built on the momentum of the Neuro Next Initiative, which ignited crucial conversations and fostered new collaborations between researchers at GTRI and Georgia Tech faculty,” says Tabitha Rosenbalm, GTRI senior research engineer. “The remarkable demonstration at Interface Neuro — witnessing a quadriplegic man walk and communicate thanks to innovative research — underscores the transformative breakthroughs possible when academic and applied researchers unite. INNS is uniquely positioned to serve as a catalyst, propelling Atlanta, Georgia Tech, and GTRI as national leaders in neurotechnology, driving advancements in both human health and engineering innovation.”

INNS is also helping shape the future of education. A new interdisciplinary Ph.D. program in neuroscience and neurotechnology welcomed its first cohort this fall, and INNS is poised to support it with professional development, research opportunities, and community engagement.

Breaking Boundaries to Advance Brain Science

Whether it’s developing neurotechnologies, designing therapeutic environments, or exploring the ethical implications of brain research, INNS is here to support work that spans fields and impacts lives.

“To responsibly address the societal and human impacts of advances in neuroscience and neurotechnology, we first need to understand them,” said Margaret Kosal, professor and director of Graduate Students in the Ivan Allen College of Liberal Arts. “That requires real and substantive collaboration beyond traditional engineering or biology labs.”

One example of INNS in action is the Smart Transitional Home Lab, a project funded by the inaugural INNS/Shepherd Center Seed Grant. This initiative brings together experts in architecture, inclusive design, neuroengineering, and rehabilitation to prototype environments that actively support stroke recovery, blending rigorous research with human-centered design.

“The establishment of INNS creates a powerful platform where diverse minds, from neuroscience to architecture to rehabilitation, can converge around a shared mission to advance human health,” says Hui Cai, professor in the School of Architecture, executive director of the SimTigrate Design Center, and co-leader of the project. “It enables interdisciplinary work with the potential to transform lives and redefine how we design for healing and recovery.”

“From whole brain recordings, to mapping the connectome, to the incredible advances in artificial intelligence, it's never been a more exciting time to study the mind and brain,” says Bob Wilson, director of the Center of Excellence for Computation and Cognition and associate professor in the School of Psychology. “I'm extremely excited for INNS to act as a central hub, building the neuroscience community at Georgia Tech and beyond.”

Join Us

INNS is more than an institute, it’s a growing, vibrant community of researchers, educators, students, and partners. Together, we’re working to understand the brain, develop technologies that improve lives, and ensure those innovations serve society responsibly.

Whether you're a student, researcher, policymaker, or simply curious about the brain, INNS is your gateway to interdisciplinary neuroscience at Georgia Tech. Get involved at neuro.gatech.edu.

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